EP2659980A1 - Support structure for simultaneously holding a plurality of medical or pharmaceutical containers and transport or packaging container with the same - Google Patents
Support structure for simultaneously holding a plurality of medical or pharmaceutical containers and transport or packaging container with the same Download PDFInfo
- Publication number
- EP2659980A1 EP2659980A1 EP13166538.2A EP13166538A EP2659980A1 EP 2659980 A1 EP2659980 A1 EP 2659980A1 EP 13166538 A EP13166538 A EP 13166538A EP 2659980 A1 EP2659980 A1 EP 2659980A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- containers
- container
- support structure
- carrier
- transport
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J1/00—Containers specially adapted for medical or pharmaceutical purposes
- A61J1/14—Details; Accessories therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01L—CHEMICAL OR PHYSICAL LABORATORY APPARATUS FOR GENERAL USE
- B01L9/00—Supporting devices; Holding devices
- B01L9/06—Test-tube stands; Test-tube holders
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/008—Racks for supporting syringes or needles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01L—CHEMICAL OR PHYSICAL LABORATORY APPARATUS FOR GENERAL USE
- B01L2200/00—Solutions for specific problems relating to chemical or physical laboratory apparatus
- B01L2200/02—Adapting objects or devices to another
- B01L2200/023—Adapting objects or devices to another adapted for different sizes of tubes, tips or container
Definitions
- the present invention relates generally to the simultaneous mounting of a plurality of containers for storing substances for medical, pharmaceutical or cosmetic applications, in particular of vials, and more particularly relates to the simultaneous mounting of a plurality of containers in a holding structure in such a way that they while they are being kept, they may be further processed in filling or processing plants, in particular in a sterile tunnel, a filling plant for liquid medical or pharmaceutical applications or a freeze-drying cabinet therefor.
- medicine containers such as vials, ampoules or carpules are widely used. These generally have a cylindrical shape, can be made of plastics or glass and are available in large quantities at low cost.
- concepts are increasingly being used in which the containers are packed in a sterile manner at the manufacturer of the containers in transport and packaging containers which are then unpacked at a pharmaceutical company under sterile conditions, in particular in a so-called sterile tunnel, and then processed further.
- Transport and packaging containers are known in which a plurality of drug containers in a regular arrangement, for example, in a matrix array along rows and at right angles to extending columns, are arranged .
- This has advantages in the automated further processing of the containers, since the containers can be transferred to processing stations in controlled positions and in a predetermined arrangement, for example to process machines, robots or the like.
- holding structures are used, in which at the same time a plurality of containers can be held in a predetermined regular arrangement.
- To transfer to a processing station just needs the transport and packaging container to be properly positioned and opened. The downstream processing station then knows in which position and arrangement the containers to be further processed are arranged.
- Such a transport and packaging container and a corresponding packaging concept are for example in the US 8,118,167 B2 disclosed.
- the further processing of the container always takes place in such a way that the holding structure from the transport and packaging container, the container is removed from the support structure and separated and transferred to a conveyor, in particular a conveyor belt, individually to the processing stations and further processed there.
- US 8,100,263 B2 discloses a sterile packable and transportable transport and packaging container in which a plate-shaped support structure can be used, in which a plurality of drug containers are kept in a regular arrangement.
- the individual medication containers are initially arranged loosely in receptacles which are formed in the holding structure.
- the holding structure is inserted into the transport and packaging container and this with a gas-impermeable plastic tube surround.
- the plastic tube is forced into the intermediate spaces between the medicament containers due to the negative pressure prevailing in the tube, which on the one hand stabilizes the position of the medicament container in the holding structure and, on the other hand, prevents further uncontrolled collision of adjacent medicament containers.
- the drug container When evacuating and the subsequent opening of the plastic tube, however, the drug container can slip sideways, which increases the automation effort for further processing of the drug container. Furthermore, the drug container after opening the plastic tube can still collide uncontrollably, which brings the aforementioned disadvantages.
- the medicine containers can not be further processed in the transport or packaging container or in the holding structure, but must first be separated in the conventional manner and handed over to downstream processing stations.
- Object of the present invention is to provide a holding structure for simultaneously holding a plurality of containers for medical or pharmaceutical applications, in particular of glass vials, to the effect that the container can be easily and inexpensively packaged sterile, unpacked and further processed.
- a support structure should be designed in particular for further processing of the containers while they are being held in the support structure.
- a corresponding transport and packaging container should also be provided with at least one such holding structure.
- the containers are held in a form-fitting manner in the holding structure.
- a variety of holding means available.
- the mutual displacement between the container and the support structure is prevented as long as one connection partner stands in the way of the other connection partner, ie blocks it.
- a support structure for concurrently holding a plurality of containers for substances for medical, pharmaceutical or cosmetic applications comprising a planar rectangular support having a plurality of apertures arranged in a regular manner and holding means associated therewith in order to hold the plurality of containers on the carrier in a form-fitting manner, characterized in that the holding means project from an underside of the carrier and are designed to hold the containers in a form-fitting manner at their upper edge, and in that on an upper side opposite the underside Carrier receptacles are provided which are designed to receive containers on the top of the carrier.
- the containers can be reliably held on the underside of the carrier.
- further containers can be held on the top of the carrier with a high packing density by means of the receptacles.
- several such support structures so-called Nests are kept stacked with the containers held in a stacked arrangement, which offers significant advantages in the processing and handling of the container, as processing systems can be used with a smaller footprint.
- the holding means may be designed so that even closed containers, for example with a metal lid, which is crimped onto the upper end of the container or vial, can be held on the carrier.
- the containers may in principle be accommodated at a distance from the top side of the carrier.
- the receptacles can also be designed so that bottoms of the containers are supported directly on the upper side of the carrier.
- the receptacles may be formed by circumferential side walls, the inner diameter of which is preferably matched to the outer diameter of the containers to be accommodated therein.
- the lower ends of the containers can be kept clamped in the receptacles.
- the recordings may be formed in particular of an elastic plastic.
- the retaining means are designed as elastic latching hooks which protrude from the underside of the carrier and are arranged distributed around the openings of the carrier.
- the latching hooks are designed so as to engage behind the upper edge of the container in a form-fitting manner and to fix it in this way
- the latching hooks are spread apart elastically during insertion of the container.
- the latching hooks may have a lower insertion bevel, which comes into contact with the upper end of the container when the containers are introduced from the underside of the carrier and along which the upper ends of the containers then slide in order to spread apart the latching hooks.
- the latching hooks further comprise a bevel or beveled bearing or contact surface, which faces the respective opening of the carrier and rests on the upper edge of the held container. Should the container again are removed from the carrier, the upper edge of the container slides when removing the container down along the downwardly inclined support or contact surface to spread apart the latching hooks again elastically. Thus, the removal of the container is facilitated by the carrier.
- the latching hooks are formed integrally with the carrier.
- the images on the top of the carrier are integrally formed therewith.
- a support structure for simultaneously holding a plurality of containers for substances for medical, pharmaceutical or cosmetic applications comprising a planar rectangular support having a plurality of openings or receptacles arranged in a regular array and the same associated holding means to hold the plurality of containers to the carrier form-fitting manner.
- the holding structure according to the invention is characterized in that the holding means are formed as flaps, which are arranged distributed around the openings or receptacles of the wearer, wherein the respective opening or a receptacle associated flaps in a first position in which the opening or receptacle completely is released, folded away and folded back in a second position in the direction of the opening to support together an upper edge of the container received in the respective opening or receptacle.
- the containers can be easily and reliably inserted and removed from the openings or receptacles of the carrier.
- the positive connection is advantageously carried out either below the flared upper edge of the container, ie in the region of the narrow neck or neck region and immediately below the upper edge, or at the lower end of the container, for example at a bottom of the container.
- the flared upper edge or the lower end or the bottom of the container is directly supported on the interlocking elements of the support structure.
- the upper edge or the lower end or the bottom of the container can also be positively gripped or engaged behind.
- a bottom-side support of the container is required according to the invention in principle, so that access to the undersides (floors) the held in the support structure container is basically possible. This makes it possible, according to the invention, for the containers to be further processed while they are being held in the holding structure.
- the containers may be batch processed in the holding structures, but remain reliably and collision-free in the holding structures during further processing, allowing significant speed advantages and automation advantages of further processing equipment, thus resulting in even more economical and cost-effective processes .
- the containers (vials) can be raised or rotated axially, in particular in the holding structure.
- the containers can also be lyophilized in the holding structure, since a direct contact with the ground to a cooling finger of the freeze-drying cabinet is possible.
- Trays or heads of the containers are fixed in a simple manner at a height, so that all soils can be arranged in a plane spanned together, which allows immediate contact with flat processing stations, in particular to a cold finger or a cooling rack of a freeze-dryer cabinet. Furthermore, a direct glass-glass contact of adjacent containers via dividers or the like is reliably prevented, which effectively prevents abrasion and contamination within the processing plant and thus allows significantly longer runtimes and maintenance intervals of the systems. Furthermore, scratches or the generation of particles on or in the containers can be effectively prevented.
- the holding structure according to the invention expediently allows the removal of the container up or down.
- the holding structure according to the invention can also be used very flexibly for containers with different external dimensions.
- the containers in the support structure can be easily displaced in the axial direction, so that containers with different heights can be held in the same holding structure.
- the axial displaceability of the containers in the support structure also allows for easy tolerance compensation or further processing of the containers while they are held in the support structure.
- they can be displaced axially from a first position to a second position and furthermore be accommodated in the holding structure, wherein these can be further processed in the second position, for example, their openings are closed with a stopper or an outer closure (for example Crimp cap or staple), often made of aluminum sheet, are applied.
- a stopper or an outer closure for example Crimp cap or staple
- the containers may be further processed while they are received in the support structure and in the transport and packaging container. If, in spite of all precautionary measures, a container still breaks, this does not lead to contamination of the system, since the break but also any active substances or solutions remain in the transport and packaging container.
- the support structure includes retention means, as set forth in more detail below, arranged in a regular array, particularly in a matrix arrangement along rows and columns perpendicular thereto or in an array of regularly offset rows of openings or receptacles.
- the arrangement of the holding means can be optimized with respect to their position to achieve the highest possible packing density of the container.
- At least a majority of the bottoms or lower ends of the containers are freely accessible from an underside of the support structure.
- these bottle bottoms are not covered by any holding structures or the like.
- a retaining web or the like may be provided at the lower end of the openings or receptacles of the support structure to support the bottoms or lower end of the container.
- an adjusting device for example an adjusting finger, act on the bottoms or lower ends of the containers from the underside of the holding structure in order to axially adjust or also rotate them while they are held in the holding structure.
- the containers may be suitably raised in the support structure and further processed in the raised position and while held in the support structure, for example, provided with an outer closure (crimp cap or staple).
- an outer closure crimp cap or staple
- the opening width of the holding means in particular the opening width of openings or receptacles are adjusted according to further embodiments, as explained below, so that the positive locking is canceled or substantially reduced at a larger opening width and at a lower Opening width for reliable holding of the container continues to exist.
- Another aspect of the present invention further relates to a transport and packaging container having at least one support structure as set forth above and further disclosed in detail below.
- Another aspect of the present invention further relates to a transport and packaging container with measures for plagiarism protection, in particular for identification and / or tracking, as explained below.
- a support structure also commonly referred to in the art as a “nest” and a shipping and packaging container (also commonly referred to in the art as a “tub”) that receives such a support structure, in accordance with the present invention, serve as described below , the simultaneous holding a plurality of containers for storing substances for cosmetic, medical or pharmaceutical applications in a regular arrangement, in particular in a matrix arrangement at regular intervals of the container to each other, along two different spatial directions, preferably along two mutually orthogonal spatial directions or a regular rows, which are arranged offset relative to each other.
- Fig. 4c schematically shown in a longitudinal section and have a cylindrical basic shape, with a cylindrical side wall with - within the tolerances - constant inside and outside diameter, which protrudes perpendicularly from a flat bottle bottom 3 and near the upper open end of the vial into a narrowed neck portion 5 of comparatively small axial length and then merges into a widened upper edge 6, which has a larger outer diameter than the associated neck portion 5 and is designed for connection to a closure element.
- the neck portion 5 may be formed smooth-walled without external thread or may be provided with an external thread for screwing a closure element.
- a plug (not shown) can be inserted whose upper end is connected to the upper edge 6 of the vial gas-tight and protected against the ingress of contaminants into the vial with the upper edge 6 , For example, by crimping or crimping a metal protective film, not shown.
- Such vials are radially symmetrical and formed of a transparent or colored glass or by blow molding or plastic injection molding techniques of a suitable plastic material, and may in principle be internally coated, so that the material of the vial emits as little impurities to the male substance.
- Ampoules or cartridges are containers for pharmaceuticals for the most parenteral application (injection), for cosmetics and other substances and are usually cylindrically shaped with a solid tip (spit or head) and a flat bottom or with two solid tips on both ends.
- These can be designed in particular as crushing ampoules with an annular predetermined breaking point around the ampoule neck or as an OPC ampoule (one-point-cut ampoule) with a scratched into the glass crushing ring.
- Syringes or injection containers also referred to as injection vials, punctured ampoules or reusable ampoules, are cylindrical, bottle-like shaped containers made of glass or plastic, usually in relatively small nominal volumes (eg 1 ml, 10 ml). They are closed with a rubber stopper with septum (puncture rubber). To protect the septum and fix the rubber stopper is still an outer closure (crimp cap or staple), often made of aluminum sheet applied. In a carpule, the liquid is in a cylinder, which is closed at one end with a thick rubber or plastic stopper. This acts as a piston when the contents are squeezed out with a Karpulenspritze.
- the cylinder is closed only with a thin membrane that is pierced in use by the rear end of the cartridge needle (a cannula ground on both sides).
- Cylinder ampoules are often used in dentistry for local anesthesia.
- Special cylindrical ampoules with a specially designed front part eg thread are used for insulin therapy in insulin pens.
- such containers are used for storing substances or active substances for cosmetic, medical or pharmaceutical applications which are to be stored in one or more components in solid or liquid form in the container.
- storage periods can be many years, which depends in particular on the hydrolytic resistance of the type of glass used.
- containers are disclosed below which are cylindrical, it should be noted that the containers according to the present invention may also have a different profile, for example a square, rectangular or polygonal profile.
- such containers have manufacturing tolerances, which may be just one or more tenths of a millimeter, especially in glass containers.
- the glass containers are fixed according to the invention by means of a positive connection to a support structure.
- This positive connection is realized in the region of the narrowed neck portion 5.
- the containers are positively supported in the region of the narrowed neck portion 5.
- the interlocking elements, as described below, are preferably formed of a sufficiently flexible or elastic plastic, so that glass containers with large manufacturing tolerances in terms of their axial length in the transition region between the upper edge 6 and the narrowed neck portion 5 can be engaged or supported positively.
- a flat transport plate 25 is provided which is formed of a plastic, for example, punched or injection molded, and which has a plurality of openings 39 for receiving the glass vials 2. These openings are arranged in a regular arrangement, in the illustrated embodiment in a matrix arrangement of rows and columns extending at right angles thereto and at equal distances from each other. Alternatively, for example, adjacent rows of containers may be regularly offset relative to each other.
- the openings are formed in annular positive locking elements 137, which are described in more detail below and which act as flaps, which are either inserted into the openings 39, in particular snapped or clipped in their peripheral edge, or which are formed integrally with the planar support 25, for example by 1K or 2K plastic injection molding.
- the spaces between the form-locking elements 137 may be formed completely closed or formed as an opening.
- the containers 2 can be inserted from above or from below into the openings 39 of the form-fitting elements 137. As a result, a plurality of containers 2 can be fixed in a form-fitting manner in the region of their narrowed neck sections 5.
- a holding structure 25, as in the Fig. 1a shown, can basically be rolled up in the style of a carpet.
- a transport and packaging container 10 For transport and packaging of a support structure in the sense of the present application with the containers received therein serves a transport and packaging container 10, as shown schematically in the Fig. 1a shown (also commonly referred to in the art as "tub").
- the container 10 is formed substantially box-shaped or trough-shaped and has a bottom 11, a vertically projecting from this, circumferentially formed side wall 12, one of this substantially rectangular projecting step 13, a circumferentially formed upper side wall 14 and an upper edge 15 which is flange-shaped.
- the corners 16 of the container 10 are suitably rounded.
- the upper side wall 14 may be inclined at a slight angle of inclination to the perpendicular to the floor 11 to facilitate insertion of the support structure 25.
- Such a container 10 is preferably made of a plastic, in particular by plastic injection molding technology, and is preferably formed of a clear, transparent plastic to allow an optical visual inspection of the recorded in the container 10 holding structure 25 and held by the container 2.
- the support structure 25 in the container 10 For receiving the support structure 25 in the container 10, this may be surrounded by a holding frame 26 having a closed edge web formed, or at least be formed continuously along the peripheral edge.
- the support structure 25 and the container 10 have mutually cooperating positioning structures, which cooperate in particular form-fitting manner.
- positioning structures in the form of projections or recesses or depressions may be formed, which cooperate form-fitting manner with correspondingly formed recesses or depressions or projections of the support structure to position the support structure 25 precisely in the transport container 10.
- the step 13 of the container 10 is formed as a circumferential, planar support surface, on which the support frame 26 rests directly.
- further support surfaces 18 or support elements may be formed on the side walls 12 of the container 10, in particular in the form of projections, as explained below.
- the support structure 25 can be precisely positioned in the container 10 and the plurality of containers 2 can thus be arranged and held in a regular arrangement and at precisely defined positions in a container 10 of standardized dimensions. In particular, it can be ensured in this way that all bottoms or lower ends of the containers 2 are arranged in a plane spanned jointly parallel to the bottom 11 or to the upper edge 15 of the container 10.
- the lower end of the container 10 may also be open in the manner of the upper end, in particular provided with a flange-like lower edge in the manner of the upper edge 15 be, so that the bottoms of the container 2 from the bottom of the container 10 forth are freely accessible, for example, for processing steps in a sterile tunnel or in a freeze-drying cabinet, as explained in more detail below.
- the plurality of containers 2 are distributed along two mutually orthogonal directions in a plane at predetermined constant distances from each other.
- mutually adjacent rows or columns of containers 2 can also be arranged offset from one another by a predetermined length, specifically in a recurring arrangement with a predetermined periodicity.
- automated manufacturing equipment can expect the container 2 at transfer to a processing station to precisely predetermined positions, which the automation effort significantly reduced.
- the containers 2 can also be further processed jointly within the holding structure 25 or the container 10, in particular also in a sterile tunnel or a freeze-drying cabinet.
- access openings 29 are formed on two longitudinal sides of the holding frame 26, via which gripping arms or the like the holding structure 25 can grip. Like in the Fig. 1a can be seen, the access openings 29 are arranged offset by a row to each other, which further facilitates a one-to-one positioning of the support structure 25 in the container 10.
- the Fig. 1b shows a schematic longitudinal section of the transport and packaging container according to the Fig. 1a
- the Fig. 1c shows in a plan view and a schematic perspective view of the support structure 25 according to the Fig. 1a ,
- the Fig. 1d shows a further variant of the support structure according to the Fig. 1c
- edges 150 of the plate-shaped carrier 134 can be folded away in order to further reduce the base area of the carrier 134, for example when it is to be transferred with the containers to a cramped further processing station, for example to a freeze-drying cabinet with a limited base area.
- the edges 150 are connected to the carrier 134 via hinges 151.
- On the upper side of the carrier 134 and the edges 150 block-shaped stops 153 are provided at mutually corresponding positions, which define a coplanar alignment of the edges 150 and the carrier 134 in the mutual stop.
- the edges 150 can also be removed from the carrier 134.
- the edges 150 may of course be provided along all four longitudinal sides of the carrier 134.
- FIG. 1e represent further preferred variants for the positive fixation of the container is.
- the Fig. 1e are on the support 134 formed as flaps form-locking elements 140 provided with an annular front end which engages around the neck portion 5 positively and the upper edge 6 is supported.
- the flaps 140 are connected via the illustrated connection region (without reference numeral) to the carrier, wherein the connection region has a smaller material thickness than the flap 140 and the carrier, so that the flaps 140 are mounted on the carrier elastic and schwenkbeglich.
- sealing lips 139 are provided at the lower ends of the flaps.
- the flaps 140 Upon insertion of the container from above or below into the opening formed by the flaps 140, the flaps 140 are folded back elastically, thus releasing the opening in the carrier.
- the applied holding force and the force required to insert and remove a container can be easily specified.
- Tolerances of containers due to different outer diameters in the region of the neck portion 5 can also be easily compensated by means of the tongue 140 mounted pivotably on the support.
- containers of different types, for example, with different diameters in the region of the neck portion 5 can also be held by the same holding structure.
- the Fig. 1f shows a further variant in which the flaps 140 extend substantially horizontally radially inwardly when the container is held at the neck portion 5. There may be some radial play between the front end of the flap 140 and the outer peripheral edge of the neck portion 5 of the containers.
- the flaps 140 Upon insertion of the container from above or below into the opening formed by the flaps 140, the flaps 140 are resiliently folded back to release the opening in the carrier.
- the interlocking element has two tongues 140 extending radially inwardly, which are pivotally mounted together on the support, the upper tongues 140 supporting the upper edge 6 of the container, while the lower tongue 140 is in the transitional region between the constricted neck portion 5 and the cylindrical one Side wall 4 of the container outer wall abut.
- Strength, material and design of the area of connection between the upper and lower tongues 140 and beams may be identical or different.
- the two tongues n140 form a total of a V-shaped elastic retaining means which engages around the neck portion 5 in a form-fitting manner and supports the upper edge 6. These are connected via a connecting web 141 with each other connected and connected via the connecting web 141 with two lateral sealing lips 139a and 139b. This allows greater stability in the fixation of the container can be achieved.
- the flap 140 is S-shaped bent and thus biased in itself, which also allows greater stability in the fixation of the container.
- the insertion and removal of the container can be made more gentle here with a suitable choice of strength, material and design of the connection area between the flap 140 and carrier. In particular, the risk of entanglement of the container on the flaps 140 is further reduced here.
- the container can be inserted from above or from below into the openings 39 of the interlocking elements in order to be fixed by these form-fitting manner.
- FIGS. 2a and 2 B show a further embodiment, is realized in the fixation of the container by means of pivotable retaining tongues or flaps 145, which are pivotally mounted on the carrier 134.
- the holding tongues 145 have at their lower end in each case a laterally projecting pin 146, which is clipped or pressed into a correspondingly formed receptacle.
- the retaining tongues or flaps 145 can thus be pivoted between a first position, in which the openings 135 of the carrier are released and the containers can be introduced freely, and a second position, in which the containers are fixed in a form-fitting manner.
- the force required for pivoting the flaps or retaining tongues 145 can be suitably specified in particular by the bearing of the pins 146 in the receptacles provided for this purpose.
- FIGS. 3a and 3b show a further variant of the carrier according to the Fig. 1c in a schematic plan view and in a longitudinal section along AA according to the Fig. 3a ,
- the bottom of the carrier 25 is formed flat, while the interlocking elements 137 protrude from the top of the carrier 25.
- the carrier 25 of this embodiment may be made in one piece with a one component (1K) or two component (2K) injection molding process of a suitable plastic.
- FIGS. 4a to 4c show a further embodiment for a carrier, which has a plurality of elongated receptacles 39 with a square cross-section, which of a A plurality of equally spaced spaced apart and perpendicular crossing crossbars 156 are formed.
- each rectangular flaps 155 are arranged, which are either formed integrally with the transverse webs or are pivotally mounted on the upper edge.
- a schematic longitudinal section along the line AA according to the Fig. 4b The neck portions 5 of the container are positively encompassed by four flaps 155 and the upper edges 6 of the container supported on this.
- the containers can be removed at the top from the receptacles 39, while the flaps 155 are pivoted away.
- FIGS. 5a to 5d show another embodiment of a support structure or support 134 (also referred to in the art as "nest").
- a support structure or support 134 also referred to in the art as "nest"
- annular side walls 163 On the upper side of the carrier 134, a plurality of annular receptacles are formed in a regular arrangement, which are formed by annular side walls 163, whose inner diameter can be matched to the outer diameter of the container to be accommodated therein.
- the bottoms of the containers are supported directly on top of the carrier 134, the side walls 163 reliably preventing contact from adjacent containers.
- the recordings can clamp the lower ends of the container 2.
- a greatly enlarged section of the Fig. 5c project from the underside of the carrier hook-shaped latching hooks 160 which are arranged around the openings 135 of the carrier 134 around.
- the container 2 can be inserted from below the carrier 134 forth in the latching hooks 160 until the upper edge 6 of the container is engaged behind the form-fitting latching hook 160.
- the containers are stored reliably, wherein all bottoms of the container 2 are arranged at the same height level and a contact of adjacent containers is prevented.
- the latching hooks 160 are sufficiently elastic, so that the container 2 can also be removed therefrom again under elastic deformation. How to get the Fig. 5b and 5c can take several layers of such carriers 134 can be stacked with the containers fixed thereto.
- the locking hooks 160 have a lower insertion bevel 160a.
- the upper edge 6 of the container 2 in abutment with the lower insertion bevel 160a.
- the latching hooks are elastically pivoted radially outward and are spread apart.
- the lower edge of the upper edge 6 of the container 2 slides (see. Fig.
- the latching hooks 160 return to their initial position, in which the containers 2 in the region of the neck portion 5, in particular below the upper edge 6, can be kept clamped by the latching hooks 160.
- the underside of the upper edge 6 of the container can also rest loosely on the obliquely downwardly inclined support surface 160b of the latching hooks, ie with a certain radial play. How to get the Fig. 5d can remove, the inclination of the obliquely downward inclined support surface 160b facilitates removal of the container 2 from the carrier.
- the containers are arranged upright and with their open end towards the upper end of the transport and packaging container
- the containers can in principle also be turned, i. with its open end pointing to the bottom of the transport and packaging container, be arranged.
- the Fig. 6 shows a packaging unit which is formed by a transport container 12 open on both sides and a holding structure according to 165 according to an embodiment not further explained here and on the top and bottom by means of a glued to the edge 15 of the transport container 12 protective or protective or Packaging film 130 is closed.
- the protective film 130 can in particular be a gas-permeable plastic film, in particular a braid made of synthetic fibers, for example of polypropylene fibers (PP) or also a Tyvek® protective film, which sterilizes the containers received and packed in the holding structure 25 2 through the film 130 therethrough.
- the transport container 12 may be formed open only at one end, such as the type of transport and packaging container 10, as shown schematically in the Fig. 1a is shown.
- antimicrobial powders may be added to the plastic of the support structure (of the carrier) and / or of the transport and packaging container.
- Antimicrobial-acting powders for example with Ag, Zn, Cu, Ce, Te or I atoms or ions, are suitable as additives or fillers for a wide variety of purposes because of their biocidal, bacteriocidal, and fungicidal action. The biocidal effect occurs for example against bacilli, fungi, viruses, yeasts, algae and other microorganisms.
- glass powders containing Ag 2 O, CuO, Cu 2 O, TeO 2 , ZnO, CeO 2 and I can also be added to the plastic of the support structure (of the support) and / or the transport and packaging container.
- the mechanical and optical properties remain largely unchanged.
- the introduction of the powders can either be incorporated as nanopowders, for example, the plastic powder mixtures in injection molding or in paints in deep drawing processes.
- An antimicrobial effect can also be achieved if the plastic is provided with an antimicrobial coating containing the aforementioned powders.
- FIG. 7a and 7b show a further embodiment variant for a packaging unit 1 with a recorded in the transport and packaging container 10 holding plate 134, which is to serve only an exemplary explanation and in which a plurality of containers 2 are fixed by means of ring elements 137 form-fitting manner.
- the packaging unit 1 has provisions for identification and / or tracking as follows: As shown in the enlarged insert of FIG.
- an electronically wireless (wireless) readable RFID chip or RuBee chip 175 arranged (a RuBee chip sparks on frequencies that can penetrate metal and water), which can be read out without contact through the side walls of the packaging unit 1 and query information regarding the identity, important product characteristics (manufacturer, content, date of manufacture, expiration date, ...) etc. issues.
- the chip 175 may be glued into the packaging unit 1 at a suitable location, also elsewhere than shown in the figure.
- the chip 175 may be arranged so that in the case of opening the packaging unit 1 or removing the holding plate 134 from the packaging unit 1 out the chip 175 is destroyed, for example, is torn or disabled. Due to the lack of response of the chip 175 to a radio interrogation, information is thus available which indicates that the packaging unit has been since the previous packaging must have been manipulated in any way. Because the chip 175 does not respond to the radio query. This can serve, for example, to prove the authenticity and integrity of the packaging unit and the containers accommodated therein.
- luminescence plagiarism protection can be provided, specifically in the form of phosphors applied at a suitable location in or on the transport and packaging container, which are conventionally also referred to as "phosphors".
- the phosphors which are preferably invisible to the human eye, are characteristically distinguishable on the basis of different spectral emission spectra.
- the phosphors are preferably comprised of inorganic luminescent materials (e.g., microcrystals, nanocrystals and / or quantum dots) that fluoresce and / or phosphoresce at particular wavelengths.
- the different types of luminescence after the duration of illumination after the end of the excitation are divided into fluorescence ( ⁇ 1 msec) and phosphorescence ( ⁇ 1 msec).
- the emission wavelengths may have a narrow spectral width (eg, InBO 3 : Eu or Tb) and / or also broad emit (Ce: YAG).
- the spectral position depends on the composition and / or the concentration of the phosphors.
- the preparation is carried out by mixing the phosphors with plastic granules, powder, solvents and or paints before further processing (injection molding, deep drawing, ). Organic luminescent materials can also be used.
- the luminescent materials may, for example, be composed of different Eu doped materials such as CaS: Eu, Sr 2 Si 5 N 8 : Eu, SrS: Eu, Ba 2 Si 5 N 8 : Eu, Sr 2 SiO 4 : Eu, SrSi 2 N 2 O 2 : Eu, SrGa 2 S 4 : Eu, SrAl 2 O 4 : Eu, Ba 2 SiO 4 : Eu, Sr 4 Al 1 4 O 25 : Eu, SrSiAl 2 O 3 N: Eu, BaMgAl 10 O 17 : Eu, Sr 2 P 2 O 7 : Eu, SrB 4 O 7 : Eu, Y 2 O 3 : Eu, YAG: Eu, Ce: YAG: Eu, (Y, Gd) BO 3 : Eu, (Y, Gd) 2 O 3 : Eu.
- Eu doped materials such as CaS: Eu, Sr 2 Si 5 N 8 : Eu, SrS: Eu, Ba 2 Si 5 N 8 : Eu, Sr
- Luminescent materials can be co-doped or else doped with other rare earths (scandium, yttrium, lanthanum, cerium, praseodymium, neodymium, promethium, samarium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium) (eg LaPO 4 : Ce, Tb, LaMgAl 11 O 19 : Ce, Tb, (Y, Gd, Tb, Lu) AG: Ce, Lu 3-xz A x Al 5-yz Sc y O 12 : Mn z Ca z , Lu 2 SiO 5 : Ce, Gd 2 SiO 5 : Ce, Lu 1-xyab Y x Gd y ) 3 (Al 1-z Ga) 5 O 12 : Ce a Pr b ).
- rare earths eg LaPO 4 : Ce, Tb, LaMgA
- LaPO 4 Pr, YPO 4 : Pr, (Ca, Mg) SO 4 : Pb, LuBO 3 : Pr, YBO 3 : Pr, Y 2 SiO 5 : Pr, SrSiO 3 : Pb, LaPO 4 : Ce, YPO 4 : Ce, LaMgAl 11 O 19 : Ce.
- the following luminescent materials may be used by way of example: InBO 3: Tb + InBO 3: Eu, ZnS: Ag, Y 2 O 2 S: Tb, Y 2 SiO 5: Tb, Y 3 (Al, Ga) 5 O 12 : Ce, (Zn, Cd) S: Cu, Cl + (Zn, Cd) S: Ag, Cl, Y 3 (Al, Ga) 5 O 12 : Tb, Zn 2 SiO 4 : Mn, Zn 8 BeSi 5 O 19 : Mn, CaWO 4 : W, Y 2 O 2 S: Eu + Fe 2 O 3 , (Zn, Mg) F 2 : Mn, Y 3 Al 5 O 12 : Tb.
- invisible fluorescence markings in and on the transport or packaging container with excitation spectra in the X-ray spectrum (10 pm-1 nm), extreme UV (1 nm-100 nm), VUV (100 nm-200 nm), UVC (200 nm-280 nm), UVB (280nm-320nm), UVA (320nm-400nm), and / or in the blue spectral range (400nm-480nm).
- the excitation can be realized continuously or pulsed and / or combined by means of various light sources, such as, for example, X-ray tubes, lasers, LEDs, halogen lamps and / or cold cathode lamps.
- the emission spectra of the fluorescent labels can be in the UV, visible spectral region (VIS) and / or in the infrared spectral region (NIR and / or MIR).
- the detection can be carried out with a commercially available spectrometer and / or time-resolved, for example with the aid of a Boxcarverlochrs to detect by means of detection in a time window, the temporal drop of the emission time resolved and / or at two different times at intervals and prove.
- the time interval can be, for example, from a few ns to a few ms and should be longer than the switch-off time of the light source.
- the luminescence markers can also be arranged in the form of 1D barcodes (eg EAN, UPC, IAN, JAN) and / or 2D barcodes (eg QR, Data Matrix, Maxi, dot) and / or as composite code.
- 1D barcodes eg EAN, UPC, IAN, JAN
- 2D barcodes eg QR, Data Matrix, Maxi, dot
- the barcodes can either be applied directly to the packaging by eg screen printing, ink jet printing or special stencil spraying or indirectly via labels (Plastic or paper) are glued.
- the application of several additive or structured luminescent layers is possible.
- the holding force exerted on the containers by the form-locking holding means is sufficient to reliably hold the containers to the holding structure.
- the holding force exerted is greater than the weight of the container, possibly with content and plugs.
- the holding force can also be dimensioned by suitable design of the holding means so that it is greater than usual force in the handling, processing or treatment of the container in a process plant. As a result, a reliable mounting of the container is always guaranteed.
- the containers can be adjusted against this holding force in the openings or receptacles, in particular axially advanced or rotated. The force required for this must only be greater than the force exerted by the holding means.
- the support structure in the context of the present invention also be formed of a thermoplastic, thermosetting or elastomeric plastic, at least portions of the support structure and the carrier are provided with a reibredumpden coating to facilitate the insertion and removal of the container ,
- the holding structure and / or the transport container, or portions thereof be formed of a fiber-reinforced plastics or a plastic, which are added to increase its thermal conductivity ceramics or metals added.
- fiber-reinforced plastics have a higher thermal conductivity of up to 0.9 W / (K m) for carbon fibers. If ceramics or metals are added to the plastics, the thermal conductivity is further increased. The result is the so-called thermally conductive plastics. This achieves a thermal conductivity of 20 W / (K m).
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Abstract
Description
Die vorliegende Anmeldung beansprucht die Priorität der Deutschen Patentanmeldung Nr. 10
Die vorliegende Erfindung betrifft allgemein die gleichzeitige Halterung einer Mehrzahl von Behältern zur Aufbewahrung von Substanzen für medizinische, pharmazeutische oder kosmetische Anwendungen, insbesondere von Fläschchen (Vials), und betrifft insbesondere die gleichzeitige Halterung einer Mehrzahl von Behältern in einer Haltestruktur in solcher Weise, dass diese, während diese in der gehalten werden, in Abfüll- oder Bearbeitungsanlagen weiter verarbeitet werden können, insbesondere in einem Steriltunnel, einer Abfüllanlage für flüssige medizinische oder pharmazeutische Anwendungen oder einem Gefriertrockenschrank hierfür.The present invention relates generally to the simultaneous mounting of a plurality of containers for storing substances for medical, pharmaceutical or cosmetic applications, in particular of vials, and more particularly relates to the simultaneous mounting of a plurality of containers in a holding structure in such a way that they while they are being kept, they may be further processed in filling or processing plants, in particular in a sterile tunnel, a filling plant for liquid medical or pharmaceutical applications or a freeze-drying cabinet therefor.
Als Behälter zur Aufbewahrung von und Lagerung von medizinischen, pharmazeutischen oder kosmetischen Präparaten mit Verabreichung in flüssiger Form, insbesondere in vordosierten Mengen, werden in großem Umfang Medikamentenbehälter, wie beispielsweise Fläschchen, Ampullen oder Karpullen, eingesetzt. Diese weisen generell eine zylindrische Form auf, können aus Kunststoffen oder aus Glas hergestellt werden und sind kostengünstig in großen Mengen erhältlich. Für eine möglichst wirtschaftliche Befüllung der Behälter unter sterilen Bedingungen werden in zunehmendem Maße Konzepte eingesetzt, bei denen die Behälter gleich beim Hersteller der Behälter in Transport- und Verpackungsbehälter steril verpackt werden, die bei einem Pharmaunternehmen dann unter sterilen Bedingungen, insbesondere in einem sog. Steriltunnel, ausgepackt und dann weiter verarbeitet werden.As containers for storing and storing medical, pharmaceutical or cosmetic preparations in liquid form, in particular in pre-dosed quantities, medicine containers such as vials, ampoules or carpules are widely used. These generally have a cylindrical shape, can be made of plastics or glass and are available in large quantities at low cost. For the most economical filling of the container under sterile conditions, concepts are increasingly being used in which the containers are packed in a sterile manner at the manufacturer of the containers in transport and packaging containers which are then unpacked at a pharmaceutical company under sterile conditions, in particular in a so-called sterile tunnel, and then processed further.
Zu diesem Zweck sind aus dem Stand der Technik div. Transport- und Verpackungsbehälter (sog. Tubs) bekannt, in denen gleichzeitig eine Mehrzahl von Medikamentenbehältern in einer regelmäßigen Anordnung, beispielsweise in einer Matrixanordnung entlang von Reihen und sich rechtwinklig dazu erstreckenden Spalten, angeordnet sind. Dies hat Vorteile bei der automatisierten Weiterverarbeitung der Behälter, da die Behälter an kontrollierten Positionen und in vorgegebener Anordnung an Bearbeitungsstationen übergeben werden können, beispielsweise an Prozessautomaten, Roboter oder dergleichen. Hierzu werden Haltestrukturen (sog. Nests) eingesetzt, in welchen gleichzeitig eine Mehrzahl von Behältern in einer vorbestimmten regelmäßigen Anordnung gehalten werden können. Zur Übergabe an eine Bearbeitungsstation braucht einfach nur der Transport- und Verpackungsbehälter geeignet positioniert und geöffnet zu werden. Die nachgeordnete Bearbeitungsstation weiß dann, in welcher Position und Anordnung die weiter zu verarbeitenden Behälter angeordnet sind.For this purpose, from the prior art div. Transport and packaging containers (so-called. Tubs) are known in which a plurality of drug containers in a regular arrangement, for example, in a matrix array along rows and at right angles to extending columns, are arranged , This has advantages in the automated further processing of the containers, since the containers can be transferred to processing stations in controlled positions and in a predetermined arrangement, for example to process machines, robots or the like. For this purpose, holding structures (so-called "nests") are used, in which at the same time a plurality of containers can be held in a predetermined regular arrangement. To transfer to a processing station just needs the transport and packaging container to be properly positioned and opened. The downstream processing station then knows in which position and arrangement the containers to be further processed are arranged.
Ein solcher Transport- und Verpackungsbehälter und ein entsprechendes Verpackungskonzept sind beispielsweise in der
Weitere vergleichbare Transport- und Verpackungsbehälter und Haltestrukturen werden in
Jedenfalls ist ein unmittelbarer Kontakt der Böden der Medikamentenbehälter, insbesondere der Böden von Fläschchen, bei den herkömmlichen Haltestrukturen nicht möglich. Dies erschwert jedoch die Weiterverarbeitung der Medikamentenbehälter insbesondere dann, wenn deren Inhalt einer Gefriertrocknung (auch als Lyophilisation oder Sublimationstrocknung bezeichnet) unterzogen werden soll. Ferner ist eine Weiterverarbeitung der Medikamentenbehälter unmittelbar in den Haltestrukturen nicht möglich, da diese dort entweder starr gehalten werden oder für die Weiterverarbeitung nicht in ausreichendem Maß zugänglich sind, weshalb die Medikamentenbehälter für eine Weiteverarbeitung herkömmlich stets aus den Haltestrukturen entnommen werden müssen.In any case, a direct contact of the bottoms of the drug container, in particular the bottoms of vials, in the conventional holding structures is not possible. However, this complicates the further processing of the drug container, especially if the contents of a freeze-drying (also known as lyophilization or sublimation drying) to be subjected. Furthermore, a further processing of the drug container directly in the support structures is not possible because they are either held there rigidly or are not sufficiently accessible for further processing, which is why the drug container for a wide processing traditionally always have to be removed from the support structures.
Aufgabe der vorliegenden Erfindung ist es, eine Haltestruktur zum gleichzeitigen Halten einer Mehrzahl von Behältern für medizinische oder pharmazeutische Anwendungen, insbesondere von Glasfläschchen, dahingehend weiterzubilden, dass die Behälter einfach und kostengünstig steril verpackt, wieder entpackt und weiterverarbeitet werden können. Gemäß einem bevorzugten weiteren Gesichtspunkt der vorliegenden Erfindung soll eine solche Haltestruktur insbesondere für eine Weiterverarbeitung der Behälter, während diese in der Haltestruktur gehalten werden, ausgelegt sein. Gemäß einem weiteren Gesichtspunkt der vorliegenden Erfindung soll ferner ein entsprechender Transport- und Verpackungsbehälter mit zumindest einer solchen Haltestruktur bereitgestellt werden.Object of the present invention is to provide a holding structure for simultaneously holding a plurality of containers for medical or pharmaceutical applications, in particular of glass vials, to the effect that the container can be easily and inexpensively packaged sterile, unpacked and further processed. According to a preferred further aspect of the present invention, such a support structure should be designed in particular for further processing of the containers while they are being held in the support structure. According to a further aspect of the present invention, a corresponding transport and packaging container should also be provided with at least one such holding structure.
Diese Aufgaben werden gemäß der vorliegenden Erfindung durch eine Haltestruktur mit den Merkmalen nach Anspruch 1 sowie durch einen Transport- und Verpackungsbehälter nach Anspruch 14 gelöst. Weitere vorteilhafte Ausführungsformen sind Gegenstand der rückbezogenen Unteransprüche.These objects are achieved according to the present invention by a support structure with the features of
Erfindungsgemäß sind die Behälter in der Haltestruktur formschlüssig gehalten. Zur formschlüssigen Halterung von zylindrischen Behältern steht eine Vielzahl von Haltemitteln zur Verfügung. Die gegenseitige Verschiebung zwischen Behälter und Haltestruktur ist verhindert, solange ein Verbindungspartner dem anderen Verbindungspartner im Wege steht, diesen also sperrt.According to the invention, the containers are held in a form-fitting manner in the holding structure. For the positive retention of cylindrical containers is a variety of holding means available. The mutual displacement between the container and the support structure is prevented as long as one connection partner stands in the way of the other connection partner, ie blocks it.
Gemäß einem ersten Gesichtspunkt wird eine Haltestruktur zum gleichzeitigen Halten einer Mehrzahl von Behältern für Substanzen für medizinische, pharmazeutische oder kosmetische Anwendungen bereitgestellt, mit einem flächigen, rechteckförmigen Träger, der eine Mehrzahl von Öffnungen, die in einer regelmäßigen angeordnet sind, und diesen zugeordnete Haltemittel aufweist, um die Mehrzahl von Behältern an dem Träger formschlüssig zu halten, dadurch gekennzeichnet, dass die Haltemittel von einer Unterseite des Trägers abragen und ausgelegt sind, um die Behälter an deren oberen Rand formschlüssig zu halten, und dass auf einer der Unterseite gegenüber liegenden Oberseite des Trägers Aufnahmen vorgesehen sind, die ausgelegt sind, um Behälter auf der Oberseite des Trägers aufzunehmen.According to a first aspect, there is provided a support structure for concurrently holding a plurality of containers for substances for medical, pharmaceutical or cosmetic applications, comprising a planar rectangular support having a plurality of apertures arranged in a regular manner and holding means associated therewith in order to hold the plurality of containers on the carrier in a form-fitting manner, characterized in that the holding means project from an underside of the carrier and are designed to hold the containers in a form-fitting manner at their upper edge, and in that on an upper side opposite the underside Carrier receptacles are provided which are designed to receive containers on the top of the carrier.
Mit Hilfe der Haltemittel können die Behälter zuverlässig auf der Unterseite des Trägers gehalten werden. Gleichzeitig können mittels der Aufnahmen weitere Behälter auf der Oberseite des Trägers mit einer hohen Packungsdichte gehalten werden. Somit können erfindungsgemäß auch mehrere solche Haltestrukturen (sog. Nests) mit den daran gehaltenen Behältern in einer in einer gestapelten Anordnung übereinander gestapelt aufbewahrt werden, was erhebliche Vorteile bei der Verarbeitung und Handhabung der Behälter bietet, da Prozessierungsanlagen mit kleinerer Grundfläche eingesetzt werden können.With the help of the holding means, the containers can be reliably held on the underside of the carrier. At the same time, further containers can be held on the top of the carrier with a high packing density by means of the receptacles. Thus, according to the invention Also, several such support structures (so-called Nests) are kept stacked with the containers held in a stacked arrangement, which offers significant advantages in the processing and handling of the container, as processing systems can be used with a smaller footprint.
Die Haltemittel können dabei so ausgelegt sein, dass auch bereits verschlossene Behälter, beispielsweise mit einem Metalldeckel, der auf das obere Ende der Behälter oder Fläschchen aufgebördelt ist, an dem Träger gehalten werden können.The holding means may be designed so that even closed containers, for example with a metal lid, which is crimped onto the upper end of the container or vial, can be held on the carrier.
In den Aufnahmen können die Behälter dabei grundsätzlich beabstandet zu der Oberseite des Trägers aufgenommen sein. Gemäß einer weiteren Ausführungsform können die Aufnahmen auch so ausgelegt sein, dass Böden der Behälter unmittelbar auf der Oberseite des Trägers abgestützt sind.In the receptacles, the containers may in principle be accommodated at a distance from the top side of the carrier. According to a further embodiment, the receptacles can also be designed so that bottoms of the containers are supported directly on the upper side of the carrier.
Gemäß einer weiteren Ausführungsform können die Aufnahmen von umlaufenden Seitenwänden ausgebildet sein, deren Innendurchmesser bevorzugt auf den Außendurchmesser der darin aufzunehmenden Behälter abgestimmt ist. Beispielsweise können die unteren Enden der Behälter in den Aufnahmen geklemmt gehalten werden. Hierzu können die Aufnahmen insbesondere aus einem elastischen Kunststoff ausgebildet sein.According to a further embodiment, the receptacles may be formed by circumferential side walls, the inner diameter of which is preferably matched to the outer diameter of the containers to be accommodated therein. For example, the lower ends of the containers can be kept clamped in the receptacles. For this purpose, the recordings may be formed in particular of an elastic plastic.
Gemäß einer weiteren Ausführungsform sind die Haltemittel als elastische Rasthaken ausgebildet, die von der Unterseite des Trägers abragen und um die Öffnungen des Trägers herum verteilt angeordnet sind. Bevorzugt sind die Rasthaken dabei so ausgelegt, um den oberen Rand der Behälter formschlüssig zu hintergreifen und diese so zu fixierenAccording to a further embodiment, the retaining means are designed as elastic latching hooks which protrude from the underside of the carrier and are arranged distributed around the openings of the carrier. Preferably, the latching hooks are designed so as to engage behind the upper edge of the container in a form-fitting manner and to fix it in this way
Um die Behälter an dem Träger zu halten, werden die Rasthaken beim Einführen der Behälter elastisch auseinander gespreizt. Hierzu können die die Rasthaken eine untere Einführschräge aufweisen, die beim Einführen der Behälter von der Unterseite des Trägers her mit deren oberen Ende in Anlage gelangt und entlang der die oberen Enden der Behälter dann gleiten, um die Rasthaken auseinander zu spreizen.In order to hold the containers on the carrier, the latching hooks are spread apart elastically during insertion of the container. For this purpose, the latching hooks may have a lower insertion bevel, which comes into contact with the upper end of the container when the containers are introduced from the underside of the carrier and along which the upper ends of the containers then slide in order to spread apart the latching hooks.
Gemäß einer weiteren Ausführungsform weisen die Rasthaken weiterhin eine Schräge bzw. abgeschrägte Auflage- oder Anlagefläche auf, die der jeweiligen Öffnung des Trägers zugewandt ist und auf der der obere Rand des gehaltenen Behälters aufliegt. Soll der Behälter wieder von dem Träger abgenommen werden, so gleitet der obere Rand der Behälter beim Abziehen der Behälter nach unten entlang der abwärts geneigten Auflage- oder Anlagefläche, um die Rasthaken wieder elastisch auseinander zu spreizen. So wird das Abnehmen der Behälter von dem Träger erleichtert.According to a further embodiment, the latching hooks further comprise a bevel or beveled bearing or contact surface, which faces the respective opening of the carrier and rests on the upper edge of the held container. Should the container again are removed from the carrier, the upper edge of the container slides when removing the container down along the downwardly inclined support or contact surface to spread apart the latching hooks again elastically. Thus, the removal of the container is facilitated by the carrier.
Gemäß einer bevorzugten Ausführungsform sind die Rasthaken einstückig mit dem Träger ausgebildet sind. Zweckmäßig sind auch die Aufnahmen auf der Oberseite des Träger einstückig mit diesem ausgebildet.According to a preferred embodiment, the latching hooks are formed integrally with the carrier. Suitably, the images on the top of the carrier are integrally formed therewith.
Gemäß einem ersten Gesichtspunkt wird eine Haltestruktur zum gleichzeitigen Halten einer Mehrzahl von Behältern für Substanzen für medizinische, pharmazeutische oder kosmetische Anwendungen bereitgestellt, mit einem flächigen, rechteckförmigen Träger, der eine Mehrzahl von Öffnungen oder Aufnahmen, die in einer regelmäßigen Anordnung angeordnet sind, und diesen zugeordnete Haltemittel aufweist, um die Mehrzahl von Behältern an dem Träger formschlüssig zu halten. Die Haltestruktur zeichnet sich erfindungsgemäß dadurch aus, dass die Haltemittel als Klappen ausgebildet sind, die um die Öffnungen oder Aufnahmen des Trägers herum verteilt angeordnet sind, wobei die einer jeweiligen Öffnung oder Aufnahme zugeordneten Klappen in einer ersten Stellung, in welcher die Öffnung oder Aufnahme vollständig freigegeben ist, weggeklappt sind und in einer zweiten Stellung in Richtung der Öffnung zurück geklappt sind, um gemeinsam einen oberen Rand des in der jeweiligen Öffnung oder Aufnahme aufgenommenen Behälters abstützen.According to a first aspect, there is provided a support structure for simultaneously holding a plurality of containers for substances for medical, pharmaceutical or cosmetic applications, comprising a planar rectangular support having a plurality of openings or receptacles arranged in a regular array and the same associated holding means to hold the plurality of containers to the carrier form-fitting manner. The holding structure according to the invention is characterized in that the holding means are formed as flaps, which are arranged distributed around the openings or receptacles of the wearer, wherein the respective opening or a receptacle associated flaps in a first position in which the opening or receptacle completely is released, folded away and folded back in a second position in the direction of the opening to support together an upper edge of the container received in the respective opening or receptacle.
Weil die Klappen in ihrer ersten Stellung die zugeordnete Öffnung oder Aufnahme vollständig freigeben, können die Behälter so einfach und zuverlässig in die Öffnungen oder Aufnahmen des Träger eingeführt und wieder aus diesen entnommen werden.Because the flaps fully release the associated opening or receptacle in their first position, the containers can be easily and reliably inserted and removed from the openings or receptacles of the carrier.
Der Formschluss erfolgt zweckmäßig entweder unterhalb des aufgeweiteten oberen Randes der Behälter, d.h. im Bereich des verengten Hals- bzw. Nackenbereichs und unmittelbar unterhalb des oberen Rands, oder am unteren Ende der Behälter, beispielsweise an einem Boden der Behälter. Zweckmäßig ist der aufgeweitete obere Rand oder das untere Ende bzw. der Boden der Behälter auf den Formschlusselementen der Haltestruktur unmittelbar abgestützt. Alternativ kann der obere Rand oder das untere Ende bzw. der Boden der Behälter auch formschlüssig umgriffen oder hintergriffen werden. Einer bodenseitigen Abstützung der Behälter bedarf es erfindungsgemäß grundsätzlich nicht, sodass ein Zugriff auf die Unterseiten (Böden) der in der Haltestruktur gehaltenen Behälter grundsätzlich möglich ist. Dies ermöglicht erfindungsgemäß, dass die Behälter, während diese in der Haltestruktur aufgenommen sind, weiterverarbeitet werden können. Mit anderen Worten, die Behälter können in den Haltestrukturen chargenweise weiter verarbeitet werden, bleiben jedoch während der Weiterverarbeitung weiterhin zuverlässig und kollisionsfrei in den Haltestrukturen gehalten, was erhebliche Geschwindigkeitsvorteile und Vorteile bei der Automatisierung von Weiterverarbeitungsanlagen ermöglicht und so insgesamt zu noch wirtschaftlicheren und kostengünstigeren Prozessen führt. Die Behälter (Vials) können insbesondere in der Haltestruktur axial angehoben oder gedreht werden. Die Behälter können gemäß weiteren Ausführungsformen auch in der Haltestruktur lyophilisiert werden, da ein direkter Bodenkontakt zu einem Kühlfinger des Gefriertrockenschranks möglich ist. Böden oder Köpfe der Behälter sind in einfacher Weise auf einer Höhe fixierbar, sodass sämtliche Böden in einer gemeinsam aufgespannten Ebene angeordnet werden können, was den unmittelbaren Kontakt zu flächigen Weiterverarbeitungstationen, insbesondere zu einem Kühlfinger bzw. einer Kühlhorde eines Gefriertrockenschranks ermöglicht. Ferner ist ein unmittelbarer Glas-Glas Kontakt von benachbarten Behältern über Trennstege oder dergleichen zuverlässig verhindert, was Abrieb und Verunreinigungen innerhalb der Weiterverarbeitungsanlage wirkungsvoll verhinder und so erheblich längeren Laufzeiten und Wartungsintervalle der Anlagen ermöglicht. Ferner können Kratzer oder die Erzeugung von Partikeln auf oder in den Behältern wirkungsvoll verhindert werden. Die erfindungsgemäße Haltestruktur ermöglicht dabei zweckmäßig die Entnahme der Behälter nach oben oder unten. Da die Position des Formschlusses zwischen Behälter und Haltestruktur einfach variiert werden kann, ist die erfindungsgemäße Haltestruktur sehr flexibel auch für Behälter mit unterschiedlichen Außenabmessungen einsetzbar. Insbesondere können die Behälter in der Haltestruktur in axialer Richtung einfach verschoben werden, sodass Behälter mit unterschiedlichen Höhen in derselben Haltestruktur gehalten werden können. Die axiale Verschieblichkeit der Behälter in der Haltestruktur ermöglicht auch einen einfachen Toleranzausgleich oder eine Weiterverarbeitung der Behälter, während diese in der Haltestruktur gehalten sind. So können diese beispielsweise von einer ersten Stellung axial in eine zweite Stellung verschoben werden und weiterhin in der Haltestruktur aufgenommen sein, wobei diese in der zweiten Stellung weiterverarbeitet werden können, beispielsweise deren Öffnungen mit einem Stopfen verschlossen werden oder auf den Stopfen ein äußerer Verschluss (beispielsweise Bördelkappe oder Krampe), häufig aus Aluminiumblech, aufgebracht werden.The positive connection is advantageously carried out either below the flared upper edge of the container, ie in the region of the narrow neck or neck region and immediately below the upper edge, or at the lower end of the container, for example at a bottom of the container. Suitably, the flared upper edge or the lower end or the bottom of the container is directly supported on the interlocking elements of the support structure. Alternatively, the upper edge or the lower end or the bottom of the container can also be positively gripped or engaged behind. A bottom-side support of the container is required according to the invention in principle, so that access to the undersides (floors) the held in the support structure container is basically possible. This makes it possible, according to the invention, for the containers to be further processed while they are being held in the holding structure. In other words, the containers may be batch processed in the holding structures, but remain reliably and collision-free in the holding structures during further processing, allowing significant speed advantages and automation advantages of further processing equipment, thus resulting in even more economical and cost-effective processes , The containers (vials) can be raised or rotated axially, in particular in the holding structure. According to further embodiments, the containers can also be lyophilized in the holding structure, since a direct contact with the ground to a cooling finger of the freeze-drying cabinet is possible. Trays or heads of the containers are fixed in a simple manner at a height, so that all soils can be arranged in a plane spanned together, which allows immediate contact with flat processing stations, in particular to a cold finger or a cooling rack of a freeze-dryer cabinet. Furthermore, a direct glass-glass contact of adjacent containers via dividers or the like is reliably prevented, which effectively prevents abrasion and contamination within the processing plant and thus allows significantly longer runtimes and maintenance intervals of the systems. Furthermore, scratches or the generation of particles on or in the containers can be effectively prevented. The holding structure according to the invention expediently allows the removal of the container up or down. Since the position of the positive connection between the container and holding structure can be varied easily, the holding structure according to the invention can also be used very flexibly for containers with different external dimensions. In particular, the containers in the support structure can be easily displaced in the axial direction, so that containers with different heights can be held in the same holding structure. The axial displaceability of the containers in the support structure also allows for easy tolerance compensation or further processing of the containers while they are held in the support structure. Thus, for example, they can be displaced axially from a first position to a second position and furthermore be accommodated in the holding structure, wherein these can be further processed in the second position, for example, their openings are closed with a stopper or an outer closure (for example Crimp cap or staple), often made of aluminum sheet, are applied.
Gemäß weiteren Ausführungsformen können die Behälter, während diese in der Haltestruktur und in dem Transport- und Verpackungsbehälter aufgenommen sind, weiter verarbeitet werden. Geht dabei trotz aller Vorsichtsmaßnahmen dennoch ein Behälter zu Bruch, so führt dies nicht zu einer Verunreinigung der Anlage, da der Bruch aber auch etwaige Wirkstubstanzen oder -lösungen in dem Transport- und Verpackungsbehälter verbleiben.According to further embodiments, the containers may be further processed while they are received in the support structure and in the transport and packaging container. If, in spite of all precautionary measures, a container still breaks, this does not lead to contamination of the system, since the break but also any active substances or solutions remain in the transport and packaging container.
Die Haltestruktur weist Haltemittel auf, wie nachfolgend ausführlicher dargelegt, die in einer regelmäßigen Anordnung angeordnet sind, insbesondere in einer Matrixanordnung entlang von Reihen und senkrecht dazu verlaufenden Spalten oder in einer Anordnung von regelmäßig zueinander versetzten Reihen von Öffnungen oder Aufnahmen. Die Anordnung der Haltemittel kann zur Erzielung einer möglichst hohen Packungsdichte der Behälter hinsichtlich ihrer Position optimiert werden.The support structure includes retention means, as set forth in more detail below, arranged in a regular array, particularly in a matrix arrangement along rows and columns perpendicular thereto or in an array of regularly offset rows of openings or receptacles. The arrangement of the holding means can be optimized with respect to their position to achieve the highest possible packing density of the container.
Gemäß einer weiteren Ausführungsform ist zumindest ein überwiegender Teil der Böden oder unteren Enden der Behälter von einer Unterseite der Haltestruktur her frei zugänglich. Bevorzugt sind diese Flaschenböden von keinen Haltestrukturen oder dergleichen abgedeckt. Gemäß weiteren Ausführungsformen kann jedoch ein Haltesteg oder dergleichen am unteren Ende der Öffnungen bzw. Aufnahmen der Haltestruktur vorgesehen sein, um die Böden oder untere Ende der Behälter abzustützen. Somit kann eine Verstelleinrichtung, beispielsweise ein Verstellfinger, von der Unterseite der Haltestruktur her auf die Böden oder untere Enden der Behälter einwirken, um diese, während diese in der Haltestruktur gehalten sind, axial zu verstellen oder auch zu verdrehen. Beispielsweise können die Behälter so in der Haltestruktur geeignet angehoben und in der angehobenen Stellung und während diese in der Haltestruktur gehalten sind weiter verarbeitet werden, beispielsweise mit einem äußeren Verschluss (Bördelkappe oder Krampe) versehen werden. Für die Verstellung der Position der Behälter in der Haltestruktur kann gemäß weiteren Ausführungsformen die Öffnungsweite der Haltemittel, insbesondere die Öffnungsweite von Öffnungen oder Aufnahmen, verstellt werden, wie nachfolgend ausgeführt, sodass der Formschluss bei einer größeren Öffnungsweite aufgehoben oder wesentlich reduziert ist und bei einer geringeren Öffnungsweite zum zuverlässigen Halten der Behälter weiterhin besteht.According to a further embodiment, at least a majority of the bottoms or lower ends of the containers are freely accessible from an underside of the support structure. Preferably, these bottle bottoms are not covered by any holding structures or the like. However, according to further embodiments, a retaining web or the like may be provided at the lower end of the openings or receptacles of the support structure to support the bottoms or lower end of the container. Thus, an adjusting device, for example an adjusting finger, act on the bottoms or lower ends of the containers from the underside of the holding structure in order to axially adjust or also rotate them while they are held in the holding structure. For example, the containers may be suitably raised in the support structure and further processed in the raised position and while held in the support structure, for example, provided with an outer closure (crimp cap or staple). For the adjustment of the position of the container in the support structure, the opening width of the holding means, in particular the opening width of openings or receptacles are adjusted according to further embodiments, as explained below, so that the positive locking is canceled or substantially reduced at a larger opening width and at a lower Opening width for reliable holding of the container continues to exist.
Ein weiterer Gesichtspunkt der vorliegenden Erfindung betrifft ferner einen Transport- und Verpackungsbehälter mit zumindest einer Haltestruktur, wie vorstehend ausgeführt und nachfolgend weiter im Detail offenbart.Another aspect of the present invention further relates to a transport and packaging container having at least one support structure as set forth above and further disclosed in detail below.
Ein weiterer Gesichtspunkt der vorliegenden Erfindung betrifft ferner einen Transport- und Verpackungsbehälter mit Maßnahmen für einen Plagiatsschutz, insbesondere für eine Identifikation und/oder Nachverfolgung, wie nachfolgend ausgeführt.Another aspect of the present invention further relates to a transport and packaging container with measures for plagiarism protection, in particular for identification and / or tracking, as explained below.
Nachfolgend wird die Erfindung in beispielhafter Weise und unter Bezugnahme auf die beigefügten Zeichnungen beschrieben werden, woraus sich weitere Merkmale, Vorteile und zu lösende Aufgaben ergeben werden. Es zeigen:
- Fig. 1a - 1c
- einen Transport- und Verpackungsbehälter gemäß einer ersten Ausführungsform der vorliegenden Erfindung;
- Fig. 1d
- eine Variante der Haltestruktur gemäß der
Fig. 1a , die einer weiteren Erhöhung der Packungsdichte der Behälter dient; - Fig. 1e - 1h
- weitere Varianten für die formschlüssige Fixierung von Behältern bei einer Haltestruktur gemäß der
Fig. 1a ; - Fig. 2a - 2c
- einen Transport- und Verpackungsbehälter gemäß einer weiteren Ausführungsform der vorliegenden Erfindung;
- Fig. 3a - 3b
- eine Haltestruktur gemäß einer weiteren Ausführungsform der vorliegenden Erfindung;
- Fig. 4a - 4c
- eine Haltestruktur gemäß einer weiteren Ausführungsform der vorliegenden Erfindung;
- Fig. 5a - 5d
- eine Haltestruktur gemäß einer weiteren Ausführungsform der vorliegenden Erfindung;
- Fig. 6
- einen Transport- und Verpackungsbehälter gemäß einer weiteren Ausführungsform der vorliegenden Erfindung mit einer Schutz- oder Verpackungsfolie; und
- Fig. 7a - 7b
- Maßnahmen zur Identifikation und/oder Nachverfolgung bei einem Transport- und Verpackungsbehälter gemäß der vorliegenden Erfindung.
- Fig. 1a - 1c
- a transportation and packaging container according to a first embodiment of the present invention;
- Fig. 1d
- a variant of the support structure according to the
Fig. 1a which serves to further increase the packing density of the containers; - Fig. 1e - 1h
- Further variants for the positive fixing of containers in a support structure according to the
Fig. 1a ; - Fig. 2a - 2c
- a transportation and packaging container according to another embodiment of the present invention;
- Fig. 3a - 3b
- a support structure according to another embodiment of the present invention;
- Fig. 4a - 4c
- a support structure according to another embodiment of the present invention;
- Fig. 5a - 5d
- a support structure according to another embodiment of the present invention;
- Fig. 6
- a transport and packaging container according to another embodiment of the present invention with a protective or packaging film; and
- Fig. 7a - 7b
- Measures for identification and / or tracking in a transport and packaging container according to the present invention.
In den Figuren bezeichnen identische Bezugszeichen identische oder im Wesentlichen gleichwirkende Elemente oder Elementgruppen.In the figures, identical reference numerals designate identical or substantially equivalent elements or groups of elements.
Eine Haltestruktur (im Stand der Technik häufig auch als "Nest" bezeichnet) sowie ein Transport- und Verpackungsbehälter (im Stand der Technik häufig auch als "Tub" bezeichnet), der eine solche Haltestruktur aufnimmt, dienen gemäß der vorliegenden Erfindung, wie nachfolgend beschrieben, der gleichzeitigen Halterung einer Mehrzahl von Behältern zur Aufbewahrung von Substanzen für kosmetische, medizinische oder pharmazeutische Anwendungen in einer regelmäßigen Anordnung, insbesondere in einer Matrixanordnung unter regelmäßigen Abständen der Behälter zueinander, entlang von zwei unterschiedlichen Raumrichtungen, bevorzugt entlang von zwei zueinander orthogonalen Raumrichtungen oder ein regelmäßigen Reihen, die relativ zueinander versetzt angeordnet sind.A support structure (also commonly referred to in the art as a "nest") and a shipping and packaging container (also commonly referred to in the art as a "tub") that receives such a support structure, in accordance with the present invention, serve as described below , the simultaneous holding a plurality of containers for storing substances for cosmetic, medical or pharmaceutical applications in a regular arrangement, in particular in a matrix arrangement at regular intervals of the container to each other, along two different spatial directions, preferably along two mutually orthogonal spatial directions or a regular rows, which are arranged offset relative to each other.
Ein Beispiel für derartige Medikamentenbehälter in Gestalt von Fläschchen (englisch: vial) ist in der
Ein weiteres Beispiel für Behälter im Sinne der vorliegenden Anmeldung sind Ampullen, Karpullen oder Spritzen- oder Injektionsbehältnisse. Ampullen oder Karpullen sind Behältnisse für Arzneimittel zur meist parenteralen Applikation (Injektion), für Kosmetika und andere Substanzen und sind meist zylindrisch geformt mit einer ausgezogenen Spitze (Spieß oder Kopf) und einem flachen Boden oder auch mit zwei ausgezogenen Spitzen an beiden Enden. Diese können insbesondere als Brechampullen mit einer ringförmigen Sollbruchstelle um den Ampullenhals herum oder als OPC-Ampulle (One-Point-Cut-Ampulle) mit einem in das Glas geritzten Brechring ausgebildet sein. Spritzen- bzw. Injektionsbehältnisse, auch als Injektionsfläschchen, Stechampulle oder Mehrwegampulle bezeichnet, sind zylindrische, flaschenähnlich geformte Behältnisse aus Glas oder Kunststoff, meist in relativ kleinen Nennvolumina (z. B. 1 ml, 10 ml). Sie sind mit einem Gummistopfen mit Septum (Durchstichgummi) verschlossen. Zum Schutz des Septums und Fixierung des Gummistopfens ist noch ein äußerer Verschluss (Bördelkappe oder Krampe), oft aus Aluminiumblech, aufgebracht. Bei einer Karpule befindet sich die Flüssigkeit in einem Zylinder, der am einen Ende mit einem dicken Gummi- oder Kunststoffstopfen verschlossen ist. Dieser fungiert als Kolben, wenn der Inhalt mit einer Karpulenspritze ausgepresst wird. Am anderen Ende ist der Zylinder nur mit einer dünnen Membran verschlossen, die bei der Anwendung vom hinteren Ende der Karpulenkanüle (eine beidseitig angeschliffene Kanüle) durchstochen wird. Zylinderampullen werden häufig in der Zahnmedizin zur Lokalanästhesie verwendet. Spezielle Zylinderampullen mit besonders gestaltetem Vorderteil (z. B. Gewinde) werden zur Insulintherapie in Insulinpens verwendet.Another example of containers in the context of the present application are ampoules, carpules or syringe or injection containers. Ampoules or cartridges are containers for pharmaceuticals for the most parenteral application (injection), for cosmetics and other substances and are usually cylindrically shaped with a solid tip (spit or head) and a flat bottom or with two solid tips on both ends. These can be designed in particular as crushing ampoules with an annular predetermined breaking point around the ampoule neck or as an OPC ampoule (one-point-cut ampoule) with a scratched into the glass crushing ring. Syringes or injection containers, also referred to as injection vials, punctured ampoules or reusable ampoules, are cylindrical, bottle-like shaped containers made of glass or plastic, usually in relatively small nominal volumes (eg 1 ml, 10 ml). They are closed with a rubber stopper with septum (puncture rubber). To protect the septum and fix the rubber stopper is still an outer closure (crimp cap or staple), often made of aluminum sheet applied. In a carpule, the liquid is in a cylinder, which is closed at one end with a thick rubber or plastic stopper. This acts as a piston when the contents are squeezed out with a Karpulenspritze. At the other end, the cylinder is closed only with a thin membrane that is pierced in use by the rear end of the cartridge needle (a cannula ground on both sides). Cylinder ampoules are often used in dentistry for local anesthesia. Special cylindrical ampoules with a specially designed front part (eg thread) are used for insulin therapy in insulin pens.
Im Sinne der vorliegenden Erfindung dienen derartige Behälter (container) zur Aufbewahrung von Substanzen oder Wirkstoffen für kosmetische, medizinische oder pharmazeutische Anwendungen, die in einer oder auch mehrere Komponenten in fester oder flüssiger Form in dem Behälter aufbewahrt werden sollen. Gerade bei Glasbehältern können Aufbewahrungsdauern viele Jahre betragen, was insbesondere von der hydrolytischen Resistenz der verwendeten Glassorte abhängt. Während nachfolgend Behälter offenbart werden, die zylindrisch sind, sei darauf hingewiesen, dass die Behälter im Sinne der vorliegenden Erfindung auch ein anderes Profil haben können, beispielsweise ein quadratisches, rechteckförmiges oder vieleckiges Profil.For the purposes of the present invention, such containers are used for storing substances or active substances for cosmetic, medical or pharmaceutical applications which are to be stored in one or more components in solid or liquid form in the container. Especially with glass containers storage periods can be many years, which depends in particular on the hydrolytic resistance of the type of glass used. While containers are disclosed below which are cylindrical, it should be noted that the containers according to the present invention may also have a different profile, for example a square, rectangular or polygonal profile.
Unweigerlich weisen solche Behälter herstellungsbedingt Toleranzen auf, die gerade bei Glasbehältern einen oder mehrere Zehntel Millimeter betragen können. Um solche Fertigungstoleranzen kompensieren zu können und gleichzeitig zu gewährleisten, dass sämtliche Flaschenböden 3 in einer Ebene angeordnet werden können, werden die Glasbehälter erfindungsgemäß mittels eines Formschlusses an einer Halterungsstruktur fixiert. Dieser Formschluss wird im Bereich des verengten Halsabschnitts 5 realisiert. Insbesondere werden die Behälter formschlüssig im Bereich des verengten Halsabschnitts 5 abgestützt. Die Formschlusselemente, wie nachfolgend beschrieben, sind bevorzugt aus einem ausreichend flexiblen oder elastischen Kunststoff ausgebildet, sodass auch Glasbehälter mit großen Fertigungstoleranzen hinsichtlich ihrer axialen Länge im Übergangsbereich zwischen dem oberen Rand 6 und dem verengten Halsabschnitt 5 formschlüssig hintergriffen oder abgestützt werden können.Inevitably, such containers have manufacturing tolerances, which may be just one or more tenths of a millimeter, especially in glass containers. In order to compensate for such manufacturing tolerances and at the same time to ensure that all Bottle bottoms 3 can be arranged in a plane, the glass containers are fixed according to the invention by means of a positive connection to a support structure. This positive connection is realized in the region of the narrowed
Zum gleichzeitigen Halten einer Mehrzahl von Behältern wird gemäß einer ersten Ausführungsform der vorliegenden Erfindung, wie in den
Die Öffnungen sind in ringförmigen Formschlusselementen 137 ausgebildet, die nachfolgend noch ausführlicher beschrieben werden und die als Klappen wirken, die entweder in die Öffnungen 39 eingesteckt sind, insbesondere in deren Umfangsrand eingerastet oder eingeclipst sind, oder die einstückig mit dem flächigen Träger 25 ausgebildet sind, beispielsweise durch 1K- oder 2K-Kunststoff-Spritzgussverfahren. Die Zwischenräume zwischen den Formschlusselementen 137 können vollständig geschlossen ausgebildet sein oder als Öffnung ausgebildet sein. Die Behälter 2 können von oben oder von unten her in die Öffnungen 39 der Formschlusselemente 137 eingeführt werden. Dadurch können eine Mehrzahl von Behälter 2 im Bereich ihrer verengten Halsabschnitte 5 formschlüssig fixiert werden.The openings are formed in annular
Dies ist in den schematischen Längsschnitten gemäß der
Eine Haltestruktur 25, wie in der
Zum Transport und zur Verpackung einer Haltestruktur im Sinne der vorliegenden Anmeldung mit den darin aufgenommenen Behältern dient ein Transport- und Verpackungsbehälter 10, wie schematisch in der
Zur Aufnahme der Haltestruktur 25 in dem Behälter 10 kann diese von einem Halterahmen 26 umgeben sein, der einen geschlossen ausgebildeten Randsteg aufweist, oder jedenfalls entlang des Umfangsrands durchgehend ausgebildet sein. Zur zuverlässigen Positionierung der Haltestruktur 25 in dem Behälter 10 weisen die Haltestruktur 25 und der Behälter 10 miteinander zusammenwirkende Positionierungsgebilde auf, die insbesondere formschlüssig zusammenwirken. So können an geeigneter Stelle, insbesondere auf der Stufe 13 oder auf Abstützflächen 18 des Behälters 10 Positionierungsgebilde in Form von Vorsprüngen oder Aussparungen bzw. Vertiefungen ausgebildet sein, die mit korrespondierend ausgebildeten Aussparungen bzw. Vertiefungen oder Vorsprüngen der Haltestruktur formschlüssig zusammenwirken, um die Haltestruktur 25 präzise in dem Transportbehälter 10 zu positionieren. Zu diesem Zweck sind gemäß der
Wenngleich in der
Wie in der
Damit die Haltestruktur 25 leicht in den Behälter 10 eingesetzt und aus diesem entnommen werden kann, sind an zwei Längsseiten des Halterahmens 26 Zugriffsöffnungen 29 ausgebildet, über welche Greifarme oder dergleichen die Haltestruktur 25 greifen können. Wie in der
Die
Die
Die
Die
Gemäß der
Gemäß der
Wie den
Die
Die
Die
Die
Gemäß der vergrößerten Darstellung nach der
Wie man den
Während bei den vorherigen Ausführungsbeispielen dargelegt wurde, dass die Behälter aufrecht und mit ihrem offenen Ende zum oberen Ende des Transport- und Verpackungsbehälters hin angeordnet sind, können die Behälter grundsätzlich auch gewendet, d.h. mit ihrem offenen Ende hin zum Boden des Transport- und Verpackungsbehälters zeigend, angeordnet sein.While it has been shown in the previous embodiments that the containers are arranged upright and with their open end towards the upper end of the transport and packaging container, the containers can in principle also be turned, i. with its open end pointing to the bottom of the transport and packaging container, be arranged.
Die
Bei sämtlichen Ausführungsformen der Erfindung können dem Kunststoff der Haltestruktur (des Trägers) und/oder des Transport- und Verpackungsbehälters antimikrobiell wirkende Pulver beigemischt sein. Antimikrobielle wirkende Pulver, beispielsweise mit Ag, Zn, Cu, Ce, Te oder I Atomen oder Ionen, sind aufgrund ihrer bioziden, bakterioziden, und fungiziden Wirkung als Zuschlagstoff oder Füllstoff für die unterschiedlichsten Zwecke geeignet. Die biozide Wirkung tritt beispielsweise gegenüber Bazillen, Pilzen, Viren, Hefen, Algen und anderen Kleinlebewesen ein. Als biozid wirkende Komponenten können dem Kunststoff der Haltestruktur (des Trägers) und/oder des Transport- und Verpackungsbehälters insbesondere auch Glaspulver zugegeben werden, die Ag20, CuO, Cu20, Te02, ZnO, Ce02 und I enthalten. Für die Anwendung in Kunststoffen bleiben die mechanischen und optischen Eigenschaften weitgehend unverändert. Die Einbringung der Pulver kann hierbei entweder bereits als Nanopulver beispielsweise den Kunststoffpulvermischungen beim Spritzguss oder in Lacken bei Tiefziehprozessen mit eingebracht werden. Eine antimikrobielle Wirkung kann auch erzielt werden, wenn der Kunststoff mit einer antimikrobiellen Beschichtung versehen ist, welche die vorgenannten Pulver enthalten.In all embodiments of the invention, antimicrobial powders may be added to the plastic of the support structure (of the carrier) and / or of the transport and packaging container. Antimicrobial-acting powders, for example with Ag, Zn, Cu, Ce, Te or I atoms or ions, are suitable as additives or fillers for a wide variety of purposes because of their biocidal, bacteriocidal, and fungicidal action. The biocidal effect occurs for example against bacilli, fungi, viruses, yeasts, algae and other microorganisms. As biocidal components, glass powders containing Ag 2 O, CuO, Cu 2 O, TeO 2 , ZnO, CeO 2 and I can also be added to the plastic of the support structure (of the support) and / or the transport and packaging container. For use in plastics, the mechanical and optical properties remain largely unchanged. The introduction of the powders can either be incorporated as nanopowders, for example, the plastic powder mixtures in injection molding or in paints in deep drawing processes. An antimicrobial effect can also be achieved if the plastic is provided with an antimicrobial coating containing the aforementioned powders.
Die
Gemäß einer weiter bevorzugten Ausführungsform ist der RuBee- oder RFID Chip 175 in Kombination mit weiteren Sensoren integriert, die wichtige Parameter des Transport- und Verpackungsbehälters 1 zeitabhängig überwachen können, welche wichtige Qualitäts- oder Echtheitseigenschaften der in dem Transport- und Verpackungsbehälter 1 aufbewahrten Behälter betreffen. Diese Qualitäts- oder Echtheitseigenschaften können periodisch aufgezeichnet und in einem dem Chip 175 oder Sensor zugeordneten Speicher abgelegt werden. Zur elektrischen Stromversorgung dieser elektronischen Bauelemente kann in dem Transport- und Verpackungsbehälter 1 eine netzunabhängige Spannungsversorgung vorgesehen sein, insbesondere eine Batterie mit geringen Abmessungen oder auch induktiv über eine kleine Leiterschleife. Als Sensoren sind gemäß der vorliegenden Anmeldung insbesondere angedacht:
- ein Feuchtigkeitssensor mit oder ohne Speicher (Data-Logging), der die in dem Transport- und Verpackungsbehälter vorherrschende Luftfeuchtigkeit periodisch misst und bei Bedarf aufzeichnet;
- ein Gassensor mit oder ohne Speicher (Data-Logging), der die Konzentration von in dem Transport- und Verpackungsbehälter vorhandenen Gasen, wie beispielsweise O2, Ozon, CO2 oder von Entkeimungsgase, wie z.B. Ethylenoxyd, Formaldehyd, misst und bei Bedarf aufzeichnet;
- ein Temperatursensor mit oder ohne Speicher (Data-Logging), der die in dem Transport- und Verpackungsbehälter vorherrschende Temperatur periodisch misst und bei Bedarf aufzeichnet;
- ein UV Sensor mit oder ohne Speicher (Data-Logging), der in den Transport- und Verpackungsbehälter eindringende UV-Strahlung periodisch misst und bei Bedarf aufzeichnet;
- ein Gammastrahlungs-, Elektronenstrahlen- oder Röntgenstrahlensensor mit oder ohne Speicher (Data-Logging), der in den Transport- und Verpackungsbehälter eindringende Strahlung periodisch misst und bei Bedarf aufzeichnet;
- a moisture sensor with or without memory (data logging), which periodically measures the humidity prevailing in the transport and packaging container and records it as needed;
- a gas sensor with or without memory (data logging), which measures the concentration of gases present in the transport and packaging container, such as O 2 , ozone, CO 2 or disinfecting gases, such as ethylene oxide, formaldehyde, and records as needed;
- a temperature sensor with or without memory (data logging), which periodically measures the temperature prevailing in the transport and packaging container and records as needed;
- a UV sensor with or without memory (data logging), which periodically measures and records UV radiation entering the transport and packaging container;
- a gamma ray, electron beam or x-ray sensor with or without memory (data logging), which periodically measures the radiation entering the transport and packaging container and records it as needed;
Ferner können in dem Transport- und Verpackungsbehälter weitere Vorkehrungen getroffen werden, die einen Plagiatschutz und einen zuverlässigen Nachweis der Authentizität und Echtheit der in dem Transport- und Verpackungsbehälter aufbewahrten Fläschchen betreffen.Furthermore, further precautions can be taken in the transport and packaging container, which concern plagiarism protection and reliable proof of the authenticity and authenticity of the vials stored in the transport and packaging container.
Hierzu kann insbesondere ein Lumineszenzplagiatschutz vorgesehen sein, und zwar in Form von an geeignetem Ort in oder an dem Transport- und Verpackungsbehälter aufgebrachten Leuchtstoffen, die herkömmlich auch als "Phosphore" bezeichnet werden. Die Leuchstoffe, die für das menschliche Auge bevorzugt unsichtbar sind, sind jedoch anhand von unterschiedlichen spektralen Emissionsspektren charakteristisch unterscheidbar. Die Leuchstoffe bestehen bevorzugt aus anorganischen Lumineszenzmaterialien (z.B. Mikrokristalle, Nanokristalle und/oder Quantumdots), die bei bestimmten Wellenlängen fluoreszieren und/oder phosphoreszieren. Die verschiedenen Arten der Lumineszenz werden nach der Dauer des Leuchtens nach Ende der Erregung eingeteilt in Fluoreszenz (< 1 msec) und Phosphoreszenz (≥ 1 msec).For this purpose, in particular luminescence plagiarism protection can be provided, specifically in the form of phosphors applied at a suitable location in or on the transport and packaging container, which are conventionally also referred to as "phosphors". However, the phosphors, which are preferably invisible to the human eye, are characteristically distinguishable on the basis of different spectral emission spectra. The phosphors are preferably comprised of inorganic luminescent materials (e.g., microcrystals, nanocrystals and / or quantum dots) that fluoresce and / or phosphoresce at particular wavelengths. The different types of luminescence after the duration of illumination after the end of the excitation are divided into fluorescence (<1 msec) and phosphorescence (≥ 1 msec).
Die Emissionswellenlängen können eine geringe spektrale Breite aufweisen ( z.B. InBO3:Eu oder Tb) und/oder aber auch breit emittieren (Ce:YAG). Die spektrale Lage hängt von der Zusammensetzung und/oder auch der Konzentration der Leuchtstoffe ab. Die Herstellung erfolgt durch Mischung der Leuchtstoffe mit Kunststoffgranulat, -Pulver, Lösungsmitteln und oder Lacken vor der Weiterverarbeitung (Spritzguss, Tiefziehen, ...). Auch organische Lumineszenzmaterialien können Anwendung finden.The emission wavelengths may have a narrow spectral width (eg, InBO 3 : Eu or Tb) and / or also broad emit (Ce: YAG). The spectral position depends on the composition and / or the concentration of the phosphors. The preparation is carried out by mixing the phosphors with plastic granules, powder, solvents and or paints before further processing (injection molding, deep drawing, ...). Organic luminescent materials can also be used.
Man ist also in der Lage verschiedene Verpackungschargen herzustellen, die charakteristische Emissionsspektren aufweisen, deren Emissionslinien von der eingesetzten Konzentration und der Kombination von Fluoreszenzmaterialien (z.B. Oxyde, , Oxynitride, Nitride, Sulfide, Fluoide, ...) sich in der Wellenlänge und den Intensitätsverhältnissen unterscheiden. Die Lumineszenzmaterialien können z.B. zusammengesetzt sein aus unterschiedlichen Eu dotierten Materialien wie CaS:Eu, Sr2Si5N8:Eu, SrS:Eu, Ba2Si5N8:Eu, Sr2SiO4:Eu, SrSi2N2O2:Eu, SrGa2S4:Eu, SrAl2O4:Eu, Ba2SiO4:Eu, Sr4Al14O25:Eu, SrSiAl2O3N:Eu, BaMgAl10O17:Eu, Sr2P2O7:Eu, SrB4O7:Eu, Y2O3:Eu, YAG:Eu, Ce:YAG:Eu, (Y,Gd)BO3:Eu, (Y,Gd)2O3:Eu. Lumineszenzmaterialien können co-dotiert oder auch mit anderen Seltenen Erden (Scandium, Yttrium, Lanthan, Cer, Praseodym, Neodym, Promethium, Samarium, Gadolinium, Terbium, Dysprosium, Holmium, Erbium, Thulium, Ytterbium und Lutetium) dotiert werden (z.B. LaPO4:Ce,Tb, LaMgAl11O19:Ce,Tb, (Y,Gd,Tb,Lu)AG:Ce, Lu3-x-zAxAl5-y-zScyO12:MnzCaz, Lu2SiO5:Ce, Gd2SiO5:Ce, Lu1-x-y-a-bYxGdy)3 (Al1-zGa)5O12:CeaPrb ). Günstige Lumineszenzmaterialien für VUV Anregung sind LaPO4:Pr, YPO4:Pr, (Ca,Mg)SO4:Pb, LuBO3:Pr, YBO3:Pr, Y2SiO5:Pr, SrSiO3:Pb, LaPO4:Ce, YPO4:Ce, LaMgAl11O19:Ce. Bei Anregung mit Rontgenstrahlen können beispielhaft die folgenden Lumineszenzmaterialien verwendet werden: InBO3:Tb+InBO3:Eu, ZnS:Ag, Y2O2S:Tb, Y2SiO5:Tb, Y3(Al,Ga)5O12:Ce, (Zn,Cd)S:Cu,Cl+(Zn,Cd)S:Ag,Cl, Y3(Al,Ga)5O12:Tb, Zn2SiO4:Mn, Zn8BeSi5O19 :Mn, CaWO4:W, Y2O2S:Eu+Fe2O3, (Zn,Mg)F2:Mn, Y3Al5O12:Tb.It is thus possible to produce various packaging batches that have characteristic emission spectra, their emission lines of the concentration used and the combination of fluorescent materials (eg, oxides, oxynitrides, nitrides, sulfides, fluoids, ...) in the wavelength and the intensity ratios differ. The luminescent materials may, for example, be composed of different Eu doped materials such as CaS: Eu, Sr 2 Si 5 N 8 : Eu, SrS: Eu, Ba 2 Si 5 N 8 : Eu, Sr 2 SiO 4 : Eu, SrSi 2 N 2 O 2 : Eu, SrGa 2 S 4 : Eu, SrAl 2 O 4 : Eu, Ba 2 SiO 4 : Eu, Sr 4 Al 1 4 O 25 : Eu, SrSiAl 2 O 3 N: Eu, BaMgAl 10 O 17 : Eu, Sr 2 P 2 O 7 : Eu, SrB 4 O 7 : Eu, Y 2 O 3 : Eu, YAG: Eu, Ce: YAG: Eu, (Y, Gd) BO 3 : Eu, (Y, Gd) 2 O 3 : Eu. Luminescent materials can be co-doped or else doped with other rare earths (scandium, yttrium, lanthanum, cerium, praseodymium, neodymium, promethium, samarium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium and lutetium) (eg LaPO 4 : Ce, Tb, LaMgAl 11 O 19 : Ce, Tb, (Y, Gd, Tb, Lu) AG: Ce, Lu 3-xz A x Al 5-yz Sc y O 12 : Mn z Ca z , Lu 2 SiO 5 : Ce, Gd 2 SiO 5 : Ce, Lu 1-xyab Y x Gd y ) 3 (Al 1-z Ga) 5 O 12 : Ce a Pr b ). Favorable luminescent materials for VUV excitation are LaPO 4 : Pr, YPO 4 : Pr, (Ca, Mg) SO 4 : Pb, LuBO 3 : Pr, YBO 3 : Pr, Y 2 SiO 5 : Pr, SrSiO 3 : Pb, LaPO 4 : Ce, YPO 4 : Ce, LaMgAl 11 O 19 : Ce. On excitation with X-rays, the following luminescent materials may be used by way of example: InBO 3: Tb + InBO 3: Eu, ZnS: Ag, Y 2 O 2 S: Tb, Y 2 SiO 5: Tb, Y 3 (Al, Ga) 5 O 12 : Ce, (Zn, Cd) S: Cu, Cl + (Zn, Cd) S: Ag, Cl, Y 3 (Al, Ga) 5 O 12 : Tb, Zn 2 SiO 4 : Mn, Zn 8 BeSi 5 O 19 : Mn, CaWO 4 : W, Y 2 O 2 S: Eu + Fe 2 O 3 , (Zn, Mg) F 2 : Mn, Y 3 Al 5 O 12 : Tb.
Rein rechnerisch lassen sich damit mehrere 100 Milliarden Fluoreszenzvarianten herstellen. Eine Identifizierung ist mit einfachen Handspektrometern möglich.In purely mathematical terms, this makes it possible to produce several hundred billion fluorescence variants. Identification is possible with simple handheld spectrometers.
Eine Erweiterung des Plagiatschutzes kann erreicht werden, wenn einige Emissionsspektren genutzt werden um andere Lumineszenzmaterialien anzuregen. D.h. die Anregung erfolgt beispielsweise mittels einer UVC-Bestrahlung (z.B. Wellenlänge=254 nm). Der Leuchstoff emittiert bei UVA (z.B. Wellenlänge=450 nm), wodurch andere Lumineszenzmaterialien angeregt werden. Weiterhin kann man anhand der zeitlich unterschiedlichen Emissionen (Decay time) zusätzlich einen zeitlich charakteristisches Fingerabdruck erhalten. Auch durch die Verwendung von Isotopen erhält man z.T. spektrale Isotopieverschiebungen, die optisch nachgewiesen werden können. Dadurch sind mehrere Trillionen Kombinationen denkbar. Damit lassen sich insbesondere unsichtbare Fluoreszenz-Markierungen im und auf dem Transport- oder Verpackungsbehälter mit Anregungsspektren im Rontgenspektrum (10pm- 1 nm), extremen UV (1nm-100nm), VUV (100nm-200nm), UVC (200nm-280nm), UVB (280nm-320nm), UVA (320nm-400nm), und/oder im blauen Spektralgebiet (400nm-480nm) realisieren. Die Anregung kann mittels verschiedener Lichtquellen, wie beispielsweise Rontgenröhren, Laser, LEDs, Halogenlampe und/oder Kaltkathodenlampen (cold cathode lamps) kontinuierlich oder gepulst und/oder kombiniert realisiert werden. Die Emissionsspektren der Fluoreszenzmarkierungen können im UV, sichtbaren Spektralgebiet (VIS) und/oder im infraroten Spektralgebiet (NIR und/oder MIR) liegen. Die Detektion kann mit einem handelsüblichen Spektrometer und oder auch zeitaufgelöst beispielsweise mit Hilfe eines Boxcarverstärkers erfolgen, um mittels Detektion in einem Zeitfenster den zeitlichen Abfall der Emission zeitaufgelöst zu messen und/oder auch zu zwei verschiedenen Zeiten im Zeitabstand und nachzuweisen. Der Zeitabstand kann beispielweise von einigen ns bis zu einigen ms betragen und sollte länger sein, als die Abschaltzeit der Lichtquelle. Es können auch verschiedene Pigmente (z.B. Nanokristalle) kombiniert werden, die zeitlich, örtlich und/oder spektral unterschiedlich fluoreszieren. Weiterhin können die Lumineszenzmarkierungen auch in Form von 1D Barcodes (z.B. EAN, UPC, IAN, JAN) und/oder 2D Barcodes (z.B. QR, Data Matrix, Maxi, Punkt) und/oder als Composite Code angeordnet werden. Die Barcodes können entweder direkt auf die Verpackung mit z.B. Siebdruckverfahren, Tintenstrahldruckverfahren oder speziellen Sprühverfahren mit Schablone aufgebracht werden oder indirekt über Etiketten (Kunststoff oder Papier) aufgeklebt werden. Auch das Aufbringen von mehreren additiven oder strukturierten Lumineszenzschichten ist möglich.An extension of plagiarism protection can be achieved if some emission spectra are used to excite other luminescent materials. That is, the excitation is carried out, for example, by means of a UVC irradiation (eg wavelength = 254 nm). The phosphor emits at UVA (eg, wavelength = 450 nm), thereby exciting other luminescent materials. Furthermore, one can additionally obtain a temporally characteristic fingerprint on the basis of the temporally different emissions (decay time). The use of isotopes also results in some spectral isotope shifts, which can be detected optically. As a result, several trillion combinations are conceivable. In particular, invisible fluorescence markings in and on the transport or packaging container with excitation spectra in the X-ray spectrum (10 pm-1 nm), extreme UV (1 nm-100 nm), VUV (100 nm-200 nm), UVC (200 nm-280 nm), UVB (280nm-320nm), UVA (320nm-400nm), and / or in the blue spectral range (400nm-480nm). The excitation can be realized continuously or pulsed and / or combined by means of various light sources, such as, for example, X-ray tubes, lasers, LEDs, halogen lamps and / or cold cathode lamps. The emission spectra of the fluorescent labels can be in the UV, visible spectral region (VIS) and / or in the infrared spectral region (NIR and / or MIR). The detection can be carried out with a commercially available spectrometer and / or time-resolved, for example with the aid of a Boxcarverstärkers to detect by means of detection in a time window, the temporal drop of the emission time resolved and / or at two different times at intervals and prove. The time interval can be, for example, from a few ns to a few ms and should be longer than the switch-off time of the light source. It is also possible to combine various pigments (eg nanocrystals) which fluoresce differently in time, place and / or spectrally. Furthermore, the luminescence markers can also be arranged in the form of 1D barcodes (eg EAN, UPC, IAN, JAN) and / or 2D barcodes (eg QR, Data Matrix, Maxi, dot) and / or as composite code. The barcodes can either be applied directly to the packaging by eg screen printing, ink jet printing or special stencil spraying or indirectly via labels (Plastic or paper) are glued. The application of several additive or structured luminescent layers is possible.
Die von den formschlüssig wirkenden Haltemitteln jeweils auf die Behälter ausgeübte Haltekraft ist ausreichend, um die Behälter zuverlässig an der Haltestruktur zu halten. Insbesondere ist die ausgeübte Haltekraft größer als die Gewichtskraft der Behälter, ggf. mit Inhalt und Verschlussstopfen. Gemäß weiteren Ausführungsformen kann die Haltekraft durch geeignete Auslegung der Haltemittel auch so bemessen sein, dass diese größer ist als übliche Kraft bei der Handhabung, Verarbeitung oder Behandlung der Behälter in einer Prozessanlage. Dadurch wird stets eine zuverlässige Halterung der Behälter gewährleistet. Gleichwohl können die Behälter gemäß bevorzugten weiteren Ausführungsformen der Erfindung gegen diese Haltekraft in den Öffnungen oder Aufnahmen verstellt werden, insbesondere axial vorgeschoben oder gedreht werden. Die hierfür erforderliche Kraft muss nur größer sein als die von den Haltemitteln ausgeübte Kraft.The holding force exerted on the containers by the form-locking holding means is sufficient to reliably hold the containers to the holding structure. In particular, the holding force exerted is greater than the weight of the container, possibly with content and plugs. According to further embodiments, the holding force can also be dimensioned by suitable design of the holding means so that it is greater than usual force in the handling, processing or treatment of the container in a process plant. As a result, a reliable mounting of the container is always guaranteed. Nevertheless, according to preferred further embodiments of the invention, the containers can be adjusted against this holding force in the openings or receptacles, in particular axially advanced or rotated. The force required for this must only be greater than the force exerted by the holding means.
Selbstverständlich kann die Haltestruktur (der Träger) im Sinne der vorliegenden Erfindung auch aus einem thermoplastischen, duroplastischen oder elastomeren Kunststoff ausgebildet sein, zumindest Abschnitte der Haltestruktur bzw. des Trägers mit einer reibreduzierenden Beschichtung versehen sind, um das Einführen und die Entnahme der Behälter zu erleichtern.Of course, the support structure (the carrier) in the context of the present invention also be formed of a thermoplastic, thermosetting or elastomeric plastic, at least portions of the support structure and the carrier are provided with a reibreduzierenden coating to facilitate the insertion and removal of the container ,
Gemäß weiteren Ausführungsform kann die Haltestruktur und/oder der Transportbehälter, oder Abschnitte davon, aus einem faserverstärkten Kunststoffe oder einem Kunststoff ausgebildet sein, dem zur Erhöhung seiner Wärmeleitfähigkeit Keramiken oder Metalle beigegeben beigegeben sind. Bekanntermaßen haben faserverstärkte Kunststoffe eine höhere Wärmeleitfähigkeit bis 0,9 W/(K m) bei Kohlenstofffasern. Werden den Kunststoffen Keramiken oder Metalle beigegeben, so wird die Wärmeleitfähigkeit weiter vergrößert. Es entstehen die sogenannten wärmeleitenden Kunststoffe. So wird eine Wärmeleitfähigkeit von 20 W/(K m) erreicht.According to another embodiment, the holding structure and / or the transport container, or portions thereof, be formed of a fiber-reinforced plastics or a plastic, which are added to increase its thermal conductivity ceramics or metals added. As is known, fiber-reinforced plastics have a higher thermal conductivity of up to 0.9 W / (K m) for carbon fibers. If ceramics or metals are added to the plastics, the thermal conductivity is further increased. The result is the so-called thermally conductive plastics. This achieves a thermal conductivity of 20 W / (K m).
Gemäß einer weiteren Ausführungsformen werden somit erfindungsgemäß bereitgestellt:
- Ausführungsform A Eine Haltestruktur zum gleichzeitigen Halten einer Mehrzahl von Behältern (2) für Substanzen für medizinische, pharmazeutische oder kosmetische Anwendungen, mit einem flächigen, rechteckförmigen Träger (25; 134), der eine Mehrzahl von Öffnungen oder Aufnahmen (32; 39; 87; 120), die in einer regelmäßigen Anordnung angeordnet sind, und diesen zugeordnete Haltemittel aufweist, um die Mehrzahl von Behältern (2) an dem Träger formschlüssig zu halten dadurch gekennzeichnet, dass die Haltemittel als Klappen (145; 155) ausgebildet sind, die um die Öffnungen (135) oder Aufnahmen (39) des Trägers (25) herum verteilt angeordnet sind, wobei die einer jeweiligen Öffnung oder Aufnahme zugeordneten Klappen (145) in einer ersten Stellung, in welcher die Öffnung oder Aufnahme vollständig freigegeben ist, weggeklappt sind und in einer zweiten Stellung in Richtung der Öffnung zurück geklappt sind, um gemeinsam einen oberen Rand (6) des in der jeweiligen Öffnung oder Aufnahme aufgenommenen Behälters abstützen.
- Ausführungsform B Eine Haltestruktur nach Ausführungsform A, wobei die Klappen einstückig mit dem Träger ausgebildet sind.
- Ausführungsform C Eine Haltestruktur nach Ausführungsform B, wobei die Klappen über einen Verbindungsbereich mit dem Träger verbunden sind, wobei der Verbindungsbereich eine geringere Materialstärke aufweist als der Träger und/oder die Klappen, sodass die Klappen schwenkbeweglich und elastisch an dem Träger gelagert sind.
- Ausführungsform D Eine Haltestruktur nach Ausführungsform A, wobei die Klappen formschlüssig mit dem Träger verbunden sind.
- Ausführungsform E Haltestruktur nach Ausführungsform D, wobei die Klappen seitlich abragende Zapfen aufweisen, die in korrespondierend ausgebildete Aufnahmen an dem Träger eingeclipst sind.
- Ausführungsform F Eine Haltestruktur nach einer der Ausführungsformen A bis E, wobei die vorderen Enden der Klappen (145) eine kreissegmentförmige Aussparung aufweisen, deren Krümmungsradius auf den Außenradius der zu haltenden Behälter abgestimmt ist.
- Ausführungsform G Eine Haltestruktur nach einer der Ausführungsformen A bis E, wobei die Klappen (145) rechteckförmig ausgebildet sind.
- Ausführungsform H Eine Haltestruktur nach einer der Ausführungsformen A bis G, wobei die Klappen (145) am oberen Rand der zugeordneten Aufnahmen (39) vorgesehen sind, wobei die Aufnahmen (39) einen rechteckförmigen oder quadratischen Querschnitt aufweisen, dessen Öffnungsweite auf den Außendurchmesser der zu haltenden Behälter abgestimmt ist.
- Embodiment A A support structure for simultaneously holding a plurality of containers (2) for substances for medical, pharmaceutical or cosmetic applications, comprising a planar rectangular support (25; 134) comprising a plurality of Apertures or receptacles (32; 39; 87; 120) arranged in a regular array and having holding means associated therewith for positively holding the plurality of containers (2) to the carrier, characterized in that the holding means are designed as flaps ( 145, 155) distributed around the apertures (135) or receptacles (39) of the carrier (25), the flaps (145) associated with a respective aperture or receptacle being in a first position in which the aperture or receptacle is fully released, folded away and folded back in a second position in the direction of the opening, to jointly support an upper edge (6) of the container received in the respective opening or receptacle.
- Embodiment B A support structure according to embodiment A, wherein the flaps are formed integrally with the carrier.
- Embodiment C A support structure according to embodiment B, wherein the flaps are connected to the carrier via a connection region, wherein the connection region has a smaller material thickness than the carrier and / or the flaps, so that the flaps are pivotally and elastically mounted on the carrier.
- Embodiment D A support structure according to embodiment A, wherein the flaps are positively connected to the carrier.
- Embodiment E holding structure according to embodiment D, wherein the flaps have laterally projecting pins, which are clipped into correspondingly formed recordings on the carrier.
- Embodiment F A holding structure according to one of the embodiments A to E, wherein the front ends of the flaps (145) have a circular segment-shaped recess whose radius of curvature is matched to the outer radius of the container to be held.
- Embodiment G A support structure according to any one of Embodiments A to E, wherein the flaps (145) are rectangular in shape.
- Embodiment H A support structure according to any one of Embodiments A to G, wherein the flaps (145) are provided at the upper edge of the associated seats (39) are, wherein the receptacles (39) have a rectangular or square cross-section whose opening width is matched to the outer diameter of the container to be held.
Wie dem Fachmann beim Studium der vorstehenden Beschreibung ohne Weiteres ersichtlich sein wird, können die einzelnen Gesichtspunkte und Merkmale der vorstehend beschriebenen Ausführungsbeispiele auch in beliebiger Weise miteinander kombiniert werden, was in zahlreichen weiteren Ausführungsformen und Modifikationen resultiert. Wie dem Fachmann beim Studium der vorliegenden Beschreibung ohne weiteres ersichtlich sein wird, sollen sämtliche solche weiteren Ausführungsformen und Modifikationen von der vorliegenden Erfindung mit umfasst sein, solange diese nicht von dem allgemeinen Lösungsgedanken und dem Schutzbereich der vorliegenden Erfindung abweichen, wie in den beigefügten Patentansprüchen festgelegt.As will be readily apparent to those skilled in the art upon reading the foregoing description, the individual aspects and features of the above-described embodiments may be combined with one another in any manner, resulting in numerous other embodiments and modifications. As those skilled in the art will readily appreciate upon reading the present specification, it is intended that all such other embodiments and modifications be included in the present invention as long as they do not depart from the general spirit and scope of the present invention as defined in the appended claims ,
Claims (15)
Priority Applications (1)
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EP14158368.2A EP2740537A1 (en) | 2012-05-03 | 2013-05-03 | Support structure for simultaneously holding a plurality of containers for the storage substances for medical, pharmaceutical or cosmetic applications and transport or packaging containers with same |
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EP14158368.2A Division-Into EP2740537A1 (en) | 2012-05-03 | 2013-05-03 | Support structure for simultaneously holding a plurality of containers for the storage substances for medical, pharmaceutical or cosmetic applications and transport or packaging containers with same |
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- 2013-05-03 US US13/886,717 patent/US20140027332A1/en not_active Abandoned
- 2013-05-03 DE DE202013012689.2U patent/DE202013012689U1/en not_active Expired - Lifetime
- 2013-05-03 EP EP13166538.2A patent/EP2659980B1/en active Active
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EP3505458A1 (en) * | 2013-08-16 | 2019-07-03 | VANRX Pharmasystems Inc. | Closure nest and closure assembly for pharmaceutical containers |
Also Published As
Publication number | Publication date |
---|---|
DE102012103898A1 (en) | 2013-11-07 |
EP2740537A1 (en) | 2014-06-11 |
DE202013012689U1 (en) | 2018-07-04 |
US20140027332A1 (en) | 2014-01-30 |
EP2659980B1 (en) | 2015-07-01 |
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